Program Outcomes (POs), Program Educational Objectives ...

Program Outcomes (POs),

Program Educational Objectives (PEOs)

&

Program Specific Outcomes (PSOs)

ADHIYAMAAN COLLEGE OF ENGINEERING (AUTONOMOUS)

Affiliated to Anna University, Chennai, Approved by AICTE, New Delhi.

Accredited by NBA – AICTE, New Delhi, Accredited by NAAC – UGC, New Delhi.

Dr. MGR NAGAR, HOSUR – 635 109.

KRISHNAGIRI DISTRICT.

1

VISION

To foster ACE as a centre for nurturing and developing world class Engineers and

Managers who convert global challenges into opportunities through value-based

quality education.

MISSION

To impart value-based quality education through effective teaching-learning

processes.

To nurture creativity, excellence and critical thinking by applying global

competency factors to contribute and excel in the rapidly growing

technological world.

To continuously develop and improve holistic and innovative personality for

global mobility.

To make ACE a centre for excellence.

PROGRAM OUTCOMES (PO’s)

Engineering Graduates will be able to:

PO 1 (Engineering knowledge)

Apply the knowledge of mathematics, science, engineering fundamentals, and an

engineering specialization to the solution of complex engineering problems.

PO 2 (Problem analysis)

Identify, formulate, review research literature, and analyze complex

engineering problems reaching substantiated conclusions using first principles of

mathematics, natural sciences, and engineering sciences.

2

PO 3 (Design / development of solutions)

Design solutions for complex engineering problems and design system

components or processes that meet the specified needs with appropriate

consideration for the public health and safety, and the cultural, societal, and

environmental considerations.

PO 4 (Conduct investigations of complex problems)

Use research-based knowledge and research methods including design of

experiments, analysis and interpretation of data, and synthesis of the information to

provide valid conclusions.

PO 5 (Modern tool usage)

Create, select, and apply appropriate techniques, resources, and modern

engineering and IT tools including prediction and modeling to complex engineering

activities with an understanding of the limitations.

PO 6 (The engineer and society)

Apply reasoning informed by the contextual knowledge to assess societal,

health, safety, legal and cultural issues and the consequent responsibilities relevant

to the professional engineering practice.

PO 7 (Environment and sustainability)

Understand the impact of the professional engineering solutions in societal

and environmental contexts, and demonstrate the knowledge of, and need for

sustainable development.

3

PO 8 (Ethics)

Apply ethical principles and commit to professional ethics and responsibilities

and norms of the engineering practice.

PO 9 (Individual and team work)

Function effectively as an individual, and as a member or leader in diverse

teams, and in multidisciplinary settings.

PO 10 (Communication)

Communicate effectively on complex engineering activities with the engineering

community and with society at large, such as, being able to comprehend and write

effective reports and design documentation, make effective presentations, and give

and receive clear instructions.

PO 11 (Project management and finance)

Demonstrate knowledge and understanding of the engineering and

management principles and apply these to one’s own work, as a member and leader

in a team, to manage projects and in multi-disciplinary environments.

PO 12 (Life- long learning)

Recognize the need for, and have the preparation and ability to engage in

independent and life-long learning in the broadest context of technological change.

4

B.E. AERONAUTICAL ENGINEERING

VISION

The department of aeronautical engineering strives to produce graduates with

sustainable engineering education, technical competency, social responsibility,

innovative and research skills to contribute for the national and global development.

MISSION

To provide quality teaching, learning and research environment for a

successful career in aeronautical engineering and interdisciplinary field.

To engage the students in research and development which helps them to

pursue higher education.

To mould the students with ethical, social and intellectual qualities to

become successful aeronautical engineers.

PROGRAM EDUCATIONAL OBJECTIVES (PEO’s)

PEO 1 (Professionalism & Citizenship)

To create and sustain a community of learning in which students acquire

knowledge and learn to apply it professionally with due consideration for ethical,

ecological and economic issues.

PEO 2 (Technical Accomplishments)

To provide knowledge based services to satisfy the needs of society and the

industry by providing hands on experience in various technologies in core field.

PEO 3 (Invention, Innovation & Creativity)

To make the students to design, experiment, analyze, and interpret in the core

field with the help of other multi-disciplinary concepts wherever applicable.

5

PEO 4 (Professional Development)

To educate the students to disseminate research findings with good soft skills

and become a successful entrepreneur.

PEO 5 (Human Resource Development)

To graduate the students in building national capabilities in technology,

education and research.

PROGRAM SPECIFIC OUTCOMES (PSO’s)

PSO 1

To mould students to become a professional with all necessary skills,

personality and sound knowledge in basic and advance technological areas.

PSO 2

To promote understanding of concepts and develop ability in design

manufacture and maintenance of aircraft, aerospace vehicles and associated

equipment and develop application capability of the concepts sciences to

engineering design and processes.

PSO 3

Understanding the current scenario in the field of aeronautics and acquire

ability to apply knowledge of engineering, science and mathematics to design and

conduct experiments in the field of Aeronautical Engineering.

PSO 4

To develop leadership skills in our students necessary to shape the social,

intellectual, business and technical worlds.

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B. ARCH. ARCHITECTURE

VISION

To nurture and equip young minds, who aspire to create a sustainable built

environment that responds to climate, context and the changing needs of the society.

MISSION

Empowering individuals through a holistic and interdisciplinary approach to

education thereby creating a social conscience,environmental sensibility and a sense

of professional responsibility.

PROGRAM EDUCATIONAL OUTCOMES (PEO’s)

PEO 1

Perform standard competencies in accordance with the scope of the global and

local practice of architecture.

PEO 2

Instill understanding of the basic philosophy and fundamental principles of

the multidimensional aspects of architecture, and the direct relationship between

man and his environment.

PEO 3

Show traits of professionalism, sense of responsibility, equality and

patriotism.

PEO 4

Receptiveness to new ideas and knowledge through scientific research.

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PEO 5

Direct and focus the thrust of architecture education to the needs and demands

of society and its integration into the social, economic, cultural and environmental

aspects of nation building.


PSO 1

Design building forms that are based on foundational design principles and

reflect the needs and desires of users, contexts, uses, and content.

PSO 2

Understand key historical and contemporary concepts, people, artifacts, and

tools and use them in the development of design work.

PSO 3

Effectively communicate ideas orally, graphically, physically, and in writing

throughout all stages of the design process.

PSO 4

Effectively implement a cohesive, iterative design process and develops an

imperative design.

PSO 5

Effectively work on design projects in disciplinary and multidisciplinary

teams.

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B. TECH. BIOTECHNOLOGY

VISION

To develop competency with innovative practices of lifelong learning to

achieve excellence in the field of biotechnology.

MISSION

To enable students to acquire knowledge in core aspects of biotechnology

by effective teaching learning procedures and apply them in all areas of

biotechnology

To inculcate high quality of education to the students to build their

capacity and to sharpen their skills to make them globally competitive

and to help in holistic development of their personality

To train students to serve society taking cognizance of ethical values and

noble ideas for the welfare of the society


PEO 1

Graduates should provide engineering insight on Mathematical, Physical,

Computational, Environmental, Bioengineering, Bioresource Utilization, Life

Sciences and expose them to industrial environment.

PEO 2

Graduates should be able to identify, analyse and to solve problems in the

areas of Bioprocess Engineering, Bioenergy, Downstream Processing, Enzyme

Technology, Health and Pharmaceutical Biotechnology, etc and to understand the

emerging precepts of project management and finance.

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PEO 3

Graduates should be able to acquire skills to become commercial

biotechnology entrepreneurs, solve industrial problems, develop professional and

ethical attitude, good communication skills and adapt to current trends by engaging

in lifelong learning.


PSO 1

To empower students to understand/interpret the fundamental concepts and

methodologies of biotechnology and to enhance skills in the areas of cellular,

molecular and biochemical technologies

PSO 2

To understand and apply major qualitative, computational and business skills

in various domains of biotechnology like Genetic Engineering, Bioprocess

Engineering, Immunology, etc., and to excel in a variety of entry level positions in

biotechnology industry

PSO 3

To develop ability/skills both in theoretical and practical knowledge to pursue

higher studies to be an entrepreneur and to serve in different manufacturing facilities

like food, pharmaceuticals, healthcare industry, etc.,

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B.E. BIOMEDICAL ENGINEERING

VISION

To produce competent and creative biomedical engineers who anticipate

change, communicate and work with others effectively in a globally connected

society.

MISSION

To pursue excellence in Biomedical Engineering by integrating

engineering and medicine through education, research and innovation.

To facilitate the students by introducing technologies for uplifting the

society with global standards.

To nurture students skill and leadership qualities by inculcating ethical

values.

PROGRAM EDUCATIONAL OBJECTIVES (PEOs)

PEO 1

Our graduates will excel in healthcare sectors and/or higher education with

the instilling profound knowledge in mathematical, scientific and engineering

concepts.

PEO 2

Our graduates will be able to analyze healthcare challenges, design and

development of diagnostic, therapeutic strategies with global standards,

economically feasible for the welfare of society.

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PEO 3

Our graduates will emerge with professionalism, ethical and social

responsibilities, communication skills, team spirit and leadership as a holistic

personality with lifelong learning attitude.


PSO 1

An ability to apply advanced technology for measurement and interpretation

of data acquired from biological system dealing the problems associated with the

interaction between living and non-living materials and systems.

PSO 2

An ability to use software tools, mathematics, science and engineering for

precise diagnosis and therapeutic applications.

PSO 3

An ability to build and expand their undergraduate foundations by engaging

in learning opportunities throughout their careers.

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B. TECH. CHEMICAL ENGINEERING

VISION

To develop competent, proactive and creative chemical engineers to meet the

global standards and expectations of engineering education.

MISSION

Our mission is to provide students with quality engineering education by

emphasizing fundamental understanding of physical, chemical, and biological

processes; engineering design and synthesis; leadership; ethics and interdisciplinary

perspectives on technology, economic, and social issues, to provide services to the

wider community.


PEO 1

The graduates of the program will have sound knowledge in Mathematical,

Scientific and Engineering concepts necessary to formulate, analyze, design and

solve Engineering problems and to prepare them for higher learning, research and

industry.

PEO 2

The graduates of the program will possess innovative skills to asses and apply

the rapid changes in technology and to engage in research leading to novel solutions

for human, social and global competency.

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PEO 3

The graduates of the program will acquire knowledge and grab opportunities

to work as teams on multidisciplinary environment, communicate ideas effectively

with diverse audiences, leadership qualities with ethical values and engage in life-

long learning.


PSO 1

Graduates will apply knowledge in physics, chemistry and biology in the field

of transfer processes for effective separation and purification of petrochemicals,

pharmaceuticals and health care products

PSO 2

Graduates will automate and control processes by applying mathematics,

process control, instrumentation, simulation and process modelling

PSO 3

Equip Chemical Engineering graduates with integrity and ethical values so

that they become responsible Engineers.

14

B.E. CIVIL ENGINEERING

VISION

Visible Innovation of Scientific, Industrial & Organisational Nationalism.

MISSION

To attain committed excellence in Education and Research to enable the

students to face the challenges in the field of Civil Engineering Practices

& Technology.

To motivate the students to imbibe skills to provide solutions for technical

problems with scientific and engineering relevance.

To analyse, design and create innovative products for its real-time

applications.

To provide excellence in higher education through innovative skills and

sound technical knowledge with a holistic concern on Ethics and

Environment.


PEO 1

Our graduates can conduct civil engineering experiments and interpret the

resulting data, can design a system, component or process, analyze problems and

deliver comprehensive solutions by applying basic principles of mathematics,

science and domain of civil engineering and technology with appreciation of best

practices and financial viability.

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PEO 2

They will exercise professional integrity at work environment with

professional skills, art-of-the-day tools, commitment to ethical and socio-cultural

values and a focus on sustenance to fulfil the industry and societal needs and to

contribute to the National development.

PEO 3

They will aim for excellence, higher and life-long learning, creative thinking,

technology innovation and development with a sound scientific and technical

knowledge.


PSO 1

Graduates will able to plan, analyse, design, estimate and qualify all types of

structures.

PSO 2

Graduates will able to imbibe critical thinking and problem solving capacity in

civil engineering field.

PSO 3

Graduates will able to meet the challenges that inherent in civil engineering

practices and Technology, in view of social relevance.

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B.E. COMPUTER SCIENCE AND ENGINEERING

VISION

To mould young and fresh mind into challenging professionals with ethical

values and shaping them with contemporary skills to contribute fully in current and

future’s world demands.

MISSION

To produce competent and quality professionals by imparting computer

concepts and techniques and a zest for higher studies.

To facilitate the students to work with modern tools, inventive

technologies and innovative research capabilities.

To build leadership qualities in the students by inculcating the spirit of

ethical values.


PEO 1

The graduates of our program will have sound knowledge in Mathematical,

Scientific and Engineering concepts necessary to formulate, analyze, design and

solve Engineering problems and to prepare them for higher learning, research and

industry.

17

PEO 2

The graduates of our program will possess innovative skills to asses and apply

the rapid changes in technology and to engage in research leading to novel solutions

for human, social and global competency.

PEO 3

The graduates of our program will acquire knowledge and grab opportunities

to work as teams on multidisciplinary environment, communicate ideas effectively

with diverse audiences, leadership qualities with ethical values and engage in life-

long learning.


PSO 1 (Professional Skills)

An ability to interpret the fundamental concepts and methodology of

computer systems. To enhance skills among students to synthesize data and technical

ideas for software design and development.

PSO 2 (Problem Solving Skills)

The ability to understand the structure and development methodologies of

software systems. Possess knowledge of software design process using open-ended

programming environments to deliver a quality product for business success.

PSO 3 (Successful career and entrepreneurship)

The ability to employ modern computer languages, environments, and

platforms in creating innovative career paths to be an entrepreneur and a zest for

higher studies.

18

B.E. ELECTRONICS AND COMMUNICATION ENGINEERING

VISION

To develop well disciplined and competent engineers who will excel in the

field of Electronics and Communication Engineering.

MISSION

To develop qualified technical personnel with a strong knowledge on basic

engineering principles.

To disseminate Innovative technical skills by fostering excellence in

engineering education

To promote exemplary professional conduct, to be utilised for the

betterment of the society.


PEO 1

Graduates of the programme will demonstrate strong mathematical, scientific

and engineering breadth in the field of Electronics and Communications

Engineering; which eventually motivates them for lifelong learning by pursuing their

higher education and also to excel in research and development activities.

PEO 2

Graduates of the programme will accomplish academic excellence, expertise

in technical and professional careers with interdisciplinary knowledge.

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PEO 3

Graduates of the programme will engage themselves as valuable and

productive engineers with good ethical and societal values, excellent technical

communication and managerial skills; evolving as successful entrepreneurs and

leaders.


PSO 1

An ability to apply the knowledge of mathematics, science and electronic

fundamentals to find solutions for complex engineering problems in the design and

development of systems in Analog and Digital electronics, VLSI Design, Embedded

Systems, Communication, Signal Processing and other relevant domains.

PSO 2

An ability to solve real world problems with optimal solutions using modern

hardware and software tools in the domain of electronics and communication

engineering.

PSO 3

An ability to grasp the social-cognizance and environmental-wisdom with

ethical responsibility to be an entrepreneur in a techno-savvy world by au courant

with latest technologies.

20

B.E. ELECTRICAL AND ELECTRONICS ENGINEERING

VISION

The department of electrical and electronics engineering is focused to produce

highly competent electrical engineers by imparting effective teaching learning

process to meet the rapidly changing technical scenario.

MISSION

To produce world class electrical engineers with advanced professional

knowledge, critical problem solving and analytical skills through effective

teaching, research and industrial collaboration.

To equip students with skills in the areas of interpersonal communication,

ethics, team work and project management.


PEO 1

Our graduates will excel in industry and in higher studies by learning the

Engineering Sciences with more emphasis in Electrical and Electronics Engineering

along with high moral values.

PEO 2

Our graduates will have good scientific and engineering expertise so as to

comprehend, to analyze, to design and to create innovative products and solutions

for the challenges of multi-disciplinary fields.

21

PEO 3

Our graduates will exhibit professional and ethical attitude, effective

communication skills, teamwork skills, leadership skills, life-long learning,

entrepreneurial thinking, global competency and an ability to transform engineering

solutions into broader social context.

PROGRAM SPECIFIC OBJECTIVES (PSO’s)

PSO 1 (Skilled Professional in Electrical & Electronic Systems)

Ability to identify, formulate and solve real time problems by applying the

knowledge acquired during the course of the program.

PSO 2 (Problem Solving Skills)

Ability to understand the recent technological developments in Electrical &

Electronics Engineering and to develop products/software to cater the societal &

Industrial needs.

PSO 3 (Successful career)

Ability to utilize the modern technologies in building innovative career paths

for being a thriving entrepreneur and to have a zest for higher studies.

22

B.E. ELECTRONICS AND INSTRUMENTATION ENGINEERING

VISION

To develop competent Electronics and Instrumentation Engineers with high

Academic Credentials and to make the department recognized by the Learning

Community, Teaching Community, Industries and research.

MISSION

To empower students towards academic excellence with state-of-art

knowledge and value-based quality engineering education in Electronics

and Instrumentation field.

To create passion for learning and foster innovation by nurturing talents

towards serving the society with high moral, ethical and professional

standards.

To endorse and facilitate the students to engage them through creative

projects to become industry ready or pursue higher studies of their choice.


PSO 1

Apply the fundamental knowledge of Engineering Mathematics, Engineering

science and Core engineering applications appropriate to the electronics and

instrumentation systems.

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PSO 2

Apply appropriate techniques and utilize programmable logic controllers

(PLC), Distributed Control Systems (DCS), PCB Designing, Mat Lab and Lab View

to provide industrial exposure to the students.

PSO 3

Provide effective and efficient talents in designing, implementing, evaluating,

measurement and control of systems in process industries and to develop the

mathematical models to automate the industrial processes.

PROGRAMME EDUCATIONAL OBJECTIVES (PEO’s)

PEO 1

Excel in core Instrumentation and/or Electronics Industries/IT field and/or

become successful entrepreneurs.

PEO 2

Actively contribute to the academic/R&D institutes after pursuing their higher

studies at the reputed institution in India/abroad.

PEO 3

Have the affinity towards lifelong learning to fly high in the proficient field

resolving the global issues with highest integrity.

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B.TECH. INFORMATION TECHNOLOGY

VISION

To become a globally recognized centre of excellence in the field of

Information Technology, providing technology excellence that advances learning,

teaching, research to produce budding IT professionals, researchers, innovators and

entrepreneurs.

MISSION

To produce competent IT professionals with the potential of Programming

and Problem solving skills.

To facilitate the students to work with modern tools, inventive

technologies and innovative research capabilities.

To build leadership abilities by inculcating the spirit of ethical values.


PEO 1

Graduates will be able to analyze and solve computing problems by applying

the principles of mathematics, information technology and engineering.

PEO 2

Graduates will be globally competent to use recent information technologies

to Design quality software systems that are economically feasible and socially

acceptable through their innovations.

25

PEO 3

Graduates will be excellent in their career or higher education by acquiring

communication and interpersonal skills to work in team ethically by engaging in

lifelong learning.


PSO 1 (Professional Skills)

Ability to identify, analyze, design, model, develop, test and manage complex

software and information management systems.

PSO 2 (Web Designing Skill)

Possess knowledge of software design process using open ended

programming and to use the web designing skill to establish new solutions for the

societal needs.

PSO 3 (Successful Career and Entrepreneurship)

Capable of adapting to new technologies and constantly upgrade their skills

with an attitude towards lifelong learning.

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B.E. MECHANICAL ENGINEERING

VISION

To develop competent and creative world class Mechanical Engineers who

use their talents to achieve the excellence.

MISSION

To provide the students qualitative technical knowledge and nurture their

creativity in the field of Mechanical Engineering through conducive and

creative learning environment

To impart highest quality education to the students to build their capacity

and honing their skills to make them globally competitive Mechanical

Engineers.

To apprise the students regarding the latest technologies to be utilized for

the welfare of the society.

PROGRAMME EDUCATIONAL OBJECTIVES (PEO’s)

PEO 1

Graduates should have a comprehensive background of mathematics, science,

and basics of mechanical engineering to solve applications related mechanical

engineering and multidisciplinary areas.

PEO 2

Graduates need to develop expertise and acumen in core areas like design,

thermal and manufacturing engineering to the satisfaction of employers and blossom

into entrepreneurs, scientists and technocrats with ethical values.

27

PEO 3

Mechanical Engineering program orients its graduates towards professional

growth either through employment or higher studies or research and contemporary

areas of socio-technological issues like energy crisis, pollution and industrial

relations.


PSO 1

An ability to solicit the knowledge of mathematics, science and mechanical

fundamentals in the realm of Design, Production and Thermal fluid sciences to solve

engineering problems utilizing sophisticated technology.

PSO 2

An ability to clutch societal realization to promulgate the organization through

entrepreneurship for the advanced technophile world.

PSO 3

An ability to develop and implement new ideas on product design with the

help of modern computer aided tools for ensuring best manufacturing practices.

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M.B.A. MASTER OF BUSINESS ADMINISTRATION

VISION

To be within the Top 25 Management institutes in India by the year 2020.

MISSION

To Tap the Latent Creative Power of the student with an Emphasis in Self

renewal and Continual improvement and to serve the Industries, Institution and

Society by Creating Effective Managers.


PEO 1

To produce industry ready graduates having utmost look for personal,

institutional integrity, social responsibility and continuous learning.

PEO 2

To develop sound knowledge of the business process and inoculate creativity

and innovation in the work place.

PEO 3

To select and apply suitable tools for decision making required for solving

complex managerial problems.

29


PSO 1

Possess the skills required to work and lead effectively in a team-based

environment.

PSO 2

Channelize the transformation process of every management graduate by

providing in-depth knowledge of business management

PSO 3

Entrepreneurship embedded with ethics and a sense of social commitment and

value creation to society.

30

M.C.A. MASTER OF COMPUTER APPLICATIONS

VISION

To enhance and extend educational and research services effectively to the

satisfaction of industry, parents and society.

MISSION

To module the students acceptable to the corporate world, by grooming the

students with better moral and ethical values.


PEO 1

To prepare graduates who will be successful professionals in industry,

government, academia, research, entrepreneurial pursuit and consulting firms.

PEO 2

To prepare graduates who will contribute to society as broadly educated,

expressive, ethical and responsible citizens with proven expertise.

PEO 3

To prepare graduates who will achieve peer-recognition; as an individual or

in a team; through demonstration of good analytical, design and implementation

skills.

PEO 4

To prepare graduates who will thrive to pursue life-long learning to fulfill

their goals.

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PSO 1

Develop competence in basic technical subjects in computer applications like

Programming Languages, Data Structures, Databases, Operating Systems, Software

Engineering.

PSO 2

Identify, analyze, formulate and develop computer applications.

PSO 3

Map real life scenarios to various theoretical optimal solutions.

PSO 4

Provide simplest automated solutions to various legacy systems.

PSO 5

Use modern computing tools and techniques with confidence.

PSO 6

Work professionally with positive attitude as an individual or in

multidisciplinary teams and communicate effectively.

PSO 7

Appreciate the importance of goal setting and to recognize the need for

life-long learning.

COMMON COURSE OF ALL FIRST YEAR UG PROGRAMMESEMESTER ICourse Name TECHNICAL ENGLISH - I

On successful completion of the course the students will be able to:

CO1The ability to comprehend facets of grammar, wide range of vocabulary so as to be equipped to presentopinions and ideas in a convincing manner.

CO2The ability to be proactively read, listen, speak and present facts in a persuasive manner in both oraland written medium

CO3 The ability to interact, translate and delegate information,CO4 The ability to carry out extempore discussions, document and elucidate ideas.

Course Name ENGINEERING MATHEMATICS - IOn successful completion of the course the students will be able to:

CO1 Developing the knowledge of basic linear algebraic concepts.

CO2Determining the solutions of ordinary differential equations by various methods which have anapplication in their core subjects.

CO3 Acquiring the basic knowledge of ordinary and partial differential calculus.

CO4Knowing the methods to solve partial differential equations occurring in various physical andengineering problems.

Course Name ENGINEERING PHYSICSOn successful completion of the course the students will be able to:

CO1 Understand the types of matter and their physical properties.

CO2Gain fundamental knowledge about the sound waves in the field of industrial production, architecture,medicine and more.

CO3 Understand the properties of light waves which can be used in communication systems.Course Name ENGINEERING CHEMISTRY

On successful completion of the course the students will be able to:CO1 Understand the concepts of electrochemistry and Energy storage devicesCO2 Understand the chemistry of CorrosionCO3 Apply the basic concepts of thermodynamics for engineering streamCO4 Understand the basic concepts of phase equilibriumCO5 Understand the chemistry behind water technology

Course Name FUNDAMENTALS OF COMPUTING & C PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Able to acquire knowledge in Computer, Internet basics and problem solving methods.CO2 Able to understand and implement the programs in C using arrays, functions and structures.

CO3Able to design and develop applications using pointer concepts and file handling mechanism.

Course Name ELECTRON DEVICESOn successful completion of the course the students will be able to:

CO1 Explain the theory, construction, and operation of basic electronic devices.CO2 Use the basic electronic devices

Course Name ESSENTIALS OF INFORMATION TECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Able to design and deploy web-sitesCO2 Able to design and deploy simple web-applicationsCO3 Able to create simple database applicationsCO4 Able to develop information systemCO5 Able to describe the basics of networking and mobile communications

Course Name ART OF PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Students will get acquainted with basic components and capabilities of a typical computing system.

ADHIYAMAAN COLLEGE OF ENGINEERING (AUTONOMOUS), DR. MGR NAGAR, HOSUR - 635 109.LIST OF COURSE OUTCOMES (COs) OF ALL THE PROGRAMMES

CO2 Students will be able to critically think about basic problems and develop algorithmsCO3 to solve, validate and verify with computing systems.

CO4Students will be able to identify appropriate language constructs and approach to computationalproblems.

CO5Students will be acquainted with coding standards including documentation which are required to beused for the development of effective, efficient and maintainable programs.

Course Name BASIC ELECTRICAL AND ELECTRONICS ENGINEERINGOn successful completion of the course the students will be able to:

CO1Recognise the different combinations of circuit elements and solving the circuit by applying basiccircuital laws.

CO2 Acquire a good understanding of basics of electrical machinesCO3 Emphasis knowledge on construction, characteristics of various devices

CO4Emphasis knowledge on fundamental concept of decimal number system and represent number systemin powers of base

Course Name BASICS OF CIVIL & MECHANICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1An ability to know the various types of bridges and dams and to have knowledge on basics of interiordesign and landscape.·

CO2 An ability to learn the manufacturing processes like foundry, welding and forging.CO3 An ability to explain the components of Refrigeration and Air conditioning cycle.

Course Name ENGINEERING PHYSICS LABOn successful completion of the course the students will be able to:

CO1 Verify the theoretical ideas and concepts covered in lecture by completing a host of experiments.

CO2Develop procedures and observation skills as data is taken and gain fundamental understanding ofsimple and complex apparatus used in the experiment.

CO3 Acquire and interpret experimental data to examine the physical law.Course Name ENGINEERING PRACTICES LAB


CO1Students will be able to prepare the pipe connections and identify the various components used inplumbing.

CO2 An ability to prepare simple wooden joints using wood working tools.CO3 An ability to prepare simple lap, butt and tee joints using arc welding equipments.

CO4Ability to demonstrate basic electrical electronic and computer components based on their physicalparameters and dimensions.

Course Name FUNDAMENTALS OF COMPUTING & C PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Able to efficiently apply office automation tools for professional requirements.CO2 Able to solve simple mathematical & logical problems using C programs.CO3 Able to build program in C for any computing problems.

Course Name ELECTRON DEVICES LABOn successful completion of the course the students will be able to:

CO1 The student should be able to learn the characteristics of basic electronic devices.CO2 Ability to understand the practical application of various electronic circuits.

SEMESTER IICourse Name Technical English - II

On successful completion of the course the students will be able to:CO1 The ability to strengthen technical writing and speaking


CO3 The ability to interact, translate and delegate information,

CO4The ability to face various levels of competitive examinations to upgrade educational and careeroptions

Course Name ENGINEERING MATHEMATICS - II


CO1Determining the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields.

CO2 Learning the basic concepts of analytic functions and transformations of complex functions.CO3 Mastering the integration in complex domain.CO4 Understanding the use of improper integrals applications in the core subject.

Course Name APPLIED PHYSICSOn successful completion of the course the students will be able to:

CO1Understand the concepts of classical and quantum theories for electron behaviour in conductors

CO2 Learn semiconductor, superconductor, dielectric materialsCO3 Understand how materials are used in the engineering field

Course Name APPLIED CHEMISTRYOn successful completion of the course the students will be able to:

CO1

The knowledge gained on Polymer chemistry, Photochemistry & Spectroscopy, Engineering materials,fuels and adsorption will facilitate better understanding of engineering processes and applications forfurther learning.

Course Name ENGINEERING GRAPHICSOn successful completion of the course the students will be able to:

CO1The student will be able to perform free hand sketching of basic geometrical constructions and multipleviews of objects.

CO2 The student will be able to do orthographic projection of lines and plane surfaces.

CO3The student will be able to draw projections of solids, section of solid and development of surfaces.

CO4 The student will be able to prepare isometric and perspective sections of simple solids.Course Name CIRCUIT THEORY


CO1Recognise the different combinations of circuit elements and solving the circuit by applying basiccircuital laws irrespective of the type of steady state source given.

CO2 Analyse electrical circuits by applying theorems.

CO3Recall the basic concepts of laplace transform and thus analyse the transient behavior of electricalcircuits

CO4Explain the way of generation of alternating voltage and the response of single phase circuits and threephase circuits employing balanced and unbalanced loads.

Course Name OBJECT ORIENTED PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Able to develop solutions to a given problems using class object concepts.

CO2Able to make use of Polymorphism overloading and Inheritance concepts to solve real world problems.

CO3 Able to develop and implement File I/O Operations and Exception handling mechanisms.Course Name ELECTRIC CIRCUITS AND ELECTRON DEVICES

On successful completion of the course the students will be able to:CO1 Ability analyse electrical circuitsCO2 Ability to apply circuit theoremsCO3 Ability to operate basic electronic devices

Course Name INTRODUCTION TO BIOMEDICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 The ability to understand the role of Biomedical EngineersCO2 The ability to know the fundamentals of diagnostic devicesCO3 The ability to know the principles of radiological equipmentsCO4 The ability to know the fundamentals of therapeutic equipmentsCO5 The ability to know about various type of analyzers

Course Name BIOLOGY FOR ENGINEERESOn successful completion of the course the students will be able to:

CO1 Familiar with the basic organization of organisms and subsequent building to a living being.

CO2Understand the machinery of the cell functions that is ultimately responsible for various daily activities.

CO3 Have knowledge about biological problems that require engineering expertise to solve them.Course Name ENGINEERING CHEMISTRY LAB

On successful completion of the course the students will be able to:CO1 Carry out the volumetric experiments and improve the analytical skills.

CO2Understand the maintenance and usage of analytical instruments and thereby develop their skills in thefield of engineering.

CO3Understand the principle and handling of electrochemical instruments and Spectrophotometer.

Course Name OBJECT ORIENTED PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1Able to demonstrate class, object, constructors concepts by using object oriented programminglanguage.

CO2 Able to designs, develop programs using inheritance and polymorphism.CO3 Able to implement various file concepts, exception handling in object oriented programming.CO4 Able to construct generic classes using templates.

Course Name ELECTRIC CIRCUITS LABOn successful completion of the course the students will be able to:

CO1Select the suitable range of meters and rheostats for the given circuit and set the appropriate values ofcircuit elements and energy sources as per the requirement.

CO2Apply basic circuital laws to confirm the practical values of the current through and voltage acrossdifferent elements of the circuit with that of the theoretical values.

CO3 Apply theorems to simplify the electric circuits.CO4 Illustrate the transient response and frequency response of RLC circuits.

Course Name CIRCUITS AND DEVICES LABORATORYOn successful completion of the course the students will be able to:

CO1 Learn the characteristics of basic electronic devicesCO2 Design RL and RC circuitsCO3 Verify Thevinin & Norton theorem KVL & KCL, and Super Position Theorems

Course Name FUNDAMENTALS OF MAT LABOn successful completion of the course the students will be able to:

CO1 Ability to understand MATLAB commands and functionsCO2 Ability to program in MATLAB environment

Course Name BASIC WORKSHOP PRACTICE LABOn successful completion of the course the students will be able to:


CO2 An ability to prepare simple wooden joints using wood working tools.CO3 An ability to prepare simple lap, butt and tee joints using arc welding equipments.CO4 Able to demonstrate the preparation of simple components using lathe and drilling machine.CO5 Able to demonstrate the forging operations and preparation of sand mould.

Course Name AIRCRAFT MATERIALSOn successful completion of the course the students will be able to:

CO1 Understand the application of light weight materials in aircraft industryCO2 Describe the heat treatment methods for aircraft materials.CO3 Explain the stress strain curves for ductile and brittle materials

Course Name INTRODUCTION TO SURVEYINGOn successful completion of the course the students will be able to:

CO1 Able to know the basics of surveying and its applicability in Construction PracticesCO2 Able to understand the methods and measurements applied in surveyingCO3 Able to know the levelling concepts and its applicability in surveying

Course Name CONSTRUCTION MATERIAL LAB

On successful completion of the course the students will be able to:CO1 Find out the properties of bricks.CO2 Find out the properties of aggregate.CO3 Find out the properties of concrete.CO4 Find out the properties of cement.

Course Name BASIC SURVEY PRACTICE LABOn successful completion of the course the students will be able to:

CO1 Carry out chain survey workCO2 Ability to measure differences in elevationCO3 Carry out the Traversing in large area

Course Name ENGINEERING MECHANICSOn successful completion of the course the students will be able to:

CO1Ability to explain the differential principles applies to solve engineering problems dealing with force,displacement, velocity and acceleration.

CO2 Ability to solve the Moment of inertia for different 2-D plane figures.CO3 Ability to analyse the forces in any structures.CO4 Ability to solve rigid body subjected to dynamic forces.

Course Name BIOCHEMISTRYOn successful completion of the course the students will be able to:

CO1 Basic principles of chemical bonding is known.

CO2Acquire knowledge related to functions and interrelationships of biomolecules in clinical research andindustry.

CO3 Idea about the consequences of interpreting and solving clinical problems.Course Name ELEMENTS OF MECHANICAL ENGINEERING

On successful completion of the course the students will be able to:CO1 An ability to explain the components of refrigeration and IC engines.CO2 An ability to learn the manufacturing processes like foundry, welding and forging.CO3 An ability to known the applications about fastener and power transmission.

Course Name FUNDAMENTALS OF AERONAUTICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the Types of propulsion and their applications.CO2 Identify the application of Laws of motion, Bernoulli’s Principle.

Course Name INTRODUCTION TO CHEMICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Able to express the fundamentals of chemical engineering and to solve problemsCO2 Able to apply basic fluid flow conceptsCO3 Able to analyse the basic concepts of heat and mass transfer operations

Course Name FUNDAMENTALS OF CIVIL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the concepts of Civil Engineering & Building components.CO2 Address the importance and standards of transportation systemCO3 Understand the requirement in public health engineering & water resources systems.

Course Name CIVIL ENGINEERING MATERIALSOn successful completion of the course the students will be able to:

CO1 Compare the properties of most common and advanced building materials.CO2 Understand the typical and potential applications of these materialsCO3 Understand the relationship between material properties and structural form

Course Name PRINCIPLES OF ARCHITECTUREOn successful completion of the course the students will be able to:

CO1 The fundamentals of architecture, they can appreciate the aesthetic building design elementsCourse Name INORGANIC CHEMISTRY

On successful completion of the course the students will be able to:CO1 The knowledge gained on atomic structure and periodic properties.CO2 Stoichiometry laid a strong foundation for chemical process calculation

CO3Knowledge on transition metal chemistry and organometallics will provide a strong platform tounderstand the concepts on these subjects for further learning.

Course Name CAD & MODELING LABORATORYOn successful completion of the course the students will be able to:

CO1 Ability to use the software packers for drafting and modeling.CO2 Ability to create 2D and 3D models of engineering components.CO3 Students will be able to create simple sheet metal parts and generate unfolded views.

Course Name BIO CHEMISTRY LABORATORYOn successful completion of the course the students will be able to:

CO1 Learning the principles behind the qualitative estimation of biomolecules.CO2 Understanding the principles behind quantitative estimation of biomolecules.CO3 Understanding the analysis of the same in the body fluids professional career.

Course Name INORGANIC CHEMISTRY LABORATORYOn successful completion of the course the students will be able to:

CO1 Knowledge in the quantitative chemical analysis and complex preparation techniques.Program Name B.E. (AERONAUTICAL ENGINEERING)

Semester IIICourse Name Thermodynamics in Aero Engineering

On successful completion of the course the students will be able to:CO1 Understand the basics of laws of thermodynamics and its principles.CO2 Analyze the air cycles and its problems, to solve the basic relations related to air cycles.CO3 Understand the basics of refrigeration and air compressors

Course Name Fluid Mechanics and MachineryOn successful completion of the course the students will be able to:

CO1Acquire the knowledge regarding fluid statics, kinematics, and dynamic and the different types of flow

CO2Apply the Knowledge about the importance of dimensional analysis and Buckingham’s Pi Theorem inFluid Flow analysis

CO3Students can able to understand the concepts of working of turbines and pumps with performance

Course Name Solid MechanicsOn successful completion of the course the students will be able to:

CO1Students are able to understand the behavior of materials due to axial, bending, tensional and combinedloads.

CO2 Apply the knowledge of solid mechanics on various material and their propertiesCO3 Able to analyze the beams and torsion of shafts easily.

Course Name Production TechnologyOn successful completion of the course the students will be able to:

CO1 Understand the basics of casting processes in ProductionCO2 Students will learn classifications and Types of Welding for production processCO3 Students can able to understand Metal forming, Shaping and Power metallurgy Techniques

Course Name Strength of Materials LaboratoryOn successful completion of the course the students will be able to:

CO1Students understands the various types of material testing and evaluation of mechanical properties

Course Name Fluid Mechanics and Machinery LaboratoryOn successful completion of the course the students will be able to:

CO1Students are able to understand the flow measurement and the performance of fluid machineryequipments.

Course Name Airline and Airport OperationsOn successful completion of the course the students will be able to:

CO1 Understand the concepts on key airport operations for high efficiency and safety

CO2Understand the basics of operational requirements of main stakeholders like airlines, authorities,ground service providers, passengers, and freight forwarders.

CO3Identify areas for improvement in your operations and facilitation processes, cargo management.

Course Name Pollution Control in Aircraft IndustriesOn successful completion of the course the students will be able to:

CO1 Understand the Knowledge of major air pollutants; their sources and their effects.

CO2Estimate the understanding of dispersion of air pollutants in the atmosphere and to learn the pollutioncontrol techniques

CO3 Analyze the strategies of reducing outdoor air pollution and noise pollutionCourse Name Environmental Safety and Management


CO1Understand the Air pollution concept and Environmental Standards for the development of Pollutioncontrol Environment

CO2 Learn Environmental Measurement control and Cyclone separatorsCO3 Understand the implementation of environmental Preventive Management system

Course Name Renewable Energy Systems for AircraftOn successful completion of the course the students will be able to:

CO1 Describe the fundamentals and main characteristics of renewable energy sourcesCO2 Apply the technological basis for harnessing renewable energy sources to Industries

CO3Recognize the effects that current energy systems based on fossil fuels have over the environment andthe society

Semester IVCourse Name AERODYNAMICS – I


CO1Understand the background of Fluid Mechanics to analyze internal and external flows relevant toaerospace applications.

CO2Apply the Knowledge of Airfoil theory to predict airfoil performance and ability to analyze andoptimize wing performance.

CO3Understand the Generation of Lift with different airfoils, wing theory and boundary layer concepts.

Course Name AIRCRAFT SYSTEMS AND INSTRUMENTSOn successful completion of the course the students will be able to:

CO1Apply the knowledge of Airplane Control Systems and different Aircraft systems to enhance theaircraft by advanced systems.

CO2 Design and analyze the Aircraft engine systems and Auxiliary systems for upcoming aircrafts

CO3Asses the flight test instrumentation, components of instrumentation systems, and the signal conditionrequired to deal with typical flight test sensors.

Course Name AIRCRAFT STRUCTURES - IOn successful completion of the course the students will be able to:

CO1 Apply knowledge of beams and columns to solve aeronautical engineering problems.CO2 Handle design and analysis of aircraft structural components.CO3 Understand the failure theory and its applications.

Course Name PROPULSION-IOn successful completion of the course the students will be able to:

CO1Understanding the basics of propulsion system and different types of air breathing engine used in A/C

CO2 Understand the Performance of inlets, burners, nozzles, compressors and turbines.CO3 To design and executive numerical propulsion analysis.

Course Name Metal Joining Process and NDTOn successful completion of the course the students will be able to:

CO1 Apply the knowledge of metal joining process and its applications to engineering fieldCO2 Understand the concept of welding, riveting and soldering.CO3 Evaluate the testing of materials and estimate different types of metal joining process

Course Name AEROSPACE MATERIALSOn successful completion of the course the students will be able to:

CO1 To know the clear idea about the basics of Aerospace materials.

CO2To understand the concept of Composite materials and types of manufacturing of Polymer matrixcomposites

CO3 To know the concept of creep, effects of creep and super alloys along with other materialsCourse Name INTRODUCTION TO SPACE TECHNOLOGY

On successful completion of the course the students will be able to:CO1 To know the broad view of the space technology with regard to rocket propulsion.

CO2To understand the basic knowledge about satellite orbits, satellite dynamics and orbital elements

CO3To know the different cases of satellite orbit transfer, orbit perturbations and Basic of rocket flightdynamics, and ballistic missile trajectories.

Course Name EXPERIMENTAL AERODYNAMICSOn successful completion of the course the students will be able to:

CO1 To Analyze the Basics flows in Low speed and Subsonic Wind tunnels.

CO2To use a basic knowledge about the experiments in high speed tunnels for industrial applications.

CO3To understand the measurement Techniques and special problems in different types of wind tunnels.

Course Name MECHANICS OF MACHINESOn successful completion of the course the students will be able to:

CO1Able to apply fundamentals of mechanism for the design of new mechanisms and analyse them foroptimum design.

CO2 An ability to analyze the gear and cam mechanisms.CO3 An ability to use different mechanisms and Torsion vibration in aircraft systems.

Semester VCourse Name Aircraft Structures II


CO1Understand the behavior of various aircraft structural components under different types of loads

CO2 Build the Knowledge about shear flow in open and closed sections of aircraft structural partsCO3 Apply the concept of Buckling and Crippling stresses with different methodsCO4 Simplify the Analysis of the stress in wing and fuselage with Shear and bending moment.

Course Name Aircraft PerformanceOn successful completion of the course the students will be able to:

CO1Apply the knowledge of Basics of Flight Performance under various conditions to Aircraft industry.

CO2 Understand the various climbing and turning performance of an aircraftCO3 Analyze the condition for minimum drag and minimum power in an aircraft.CO4 Examine the Special performances of an aircraft engines and to study about propellers.

Course Name Aerodynamics IIOn successful completion of the course the students will be able to:

CO1Categorize the behavior of airflow both internal and external in compressible flow regime withparticular emphasis on supersonic flows.

CO2 Compare the various concepts of shockwaves and Expansion wavesCO3 Apply the knowledge for High Speed flows in airfoils with Critical Mach numbersCO4 Understand the different types of Wind tunnels with shock tubes

Course Name PROPULSION IIOn successful completion of the course the students will be able to:

CO1 Learn the concept Aircraft and Rocket propulsion systemsCO2 Classify the applications of various propellant systems and their properties

CO3Analyze various propulsion systems, Performances and Advantages and apply the knowledge inPropulsion field.

CO4 Classify different types of propulsion systems and concepts applied in nozzle propulsionCourse Name Aircraft Structures Lab II

On successful completion of the course the students will be able to:CO1 Find the Bending in Symmetric and Unsymmetrical SectionsCO2 Compute the shear center location for open and closed sectionsCO3 Calculate the Stress values of photo elastic techniques and vibration of beams

CO4Analyze the Experiments on flexibility matrix for cantilever beam and Beam with combined loading

Course Name Propulsion laboratoryOn successful completion of the course the students will be able to:

CO1 Apply the knowledge of Engine operations in Aeronautical fieldCO2 Analyze the Performance of PropellersCO3 Calculate the velocity of free jet and wall jet experiments and Apply in Industrial applicationsCO4 Make use of Flow visualization and categorize the flow based on Reynolds number.

Course Name Aircraft Rules and RegulationOn successful completion of the course the students will be able to:

CO1Apply the knowledge of Airworthiness regulations and CAR procedures which are being followed byDGCA.

CO2 Understand the Issuing of Airworthiness certificate and its requirements of aircraft

CO3Analyze the concept of airworthiness and certification & health monitoring in Aircraft industry.

CO4 Determine the Flight evaluation and Testing Procedures techniques for further applicationsCourse Name Airlines Operations and Management

On successful completion of the course the students will be able to:CO1 Learn the Different Airline Operations and Air transport management.CO2 Understand the Planning of different Airport and Air safety ManagementCO3 Apply the knowledge of Air traffic control and Flight rules in aviation field

CO4Identify the Aircraft Management Safety Standards Guidelines and Apply to the respective issues.

Course Name Aero-Engine Testing and Performance EvaluationOn successful completion of the course the students will be able to:

CO1 Apply the knowledge in Testing of Turbo engines and EvaluationCO2 Analyze the Combustion chamber, Propellers and Nozzles in Aircraft IndustryCO3 Know about the Engine performance and quality testing in AircraftsCO4 Develop the knowledge of Performance of air breathing engines and Wind tunnel tests

Course Name Aircraft Quality and AssuranceOn successful completion of the course the students will be able to:

CO1 Apply the knowledge of Quality concepts in aircraft industryCO2 Describe the Importance of Quality control and Designing of QualityCO3 Define about knowledge of Reliability Prediction and Manufacturing of Quality AssuranceCO4 Analyze the Concepts of Probability and Scope for data analysis

Course Name Space Flight MechanicsOn successful completion of the course the students will be able to:

CO1 Define the Basic concepts of Solar system and Earth atmosphere.CO2 Analyze the Satellite operations and Satellite InjectionsCO3 Understand the concept of Interplanetary Trajectories and Missile TrajectoriesCO4 Differentiate the Space craft materials and Selection of Spacecraft Material

Course Name Aircraft Control EngineeringOn successful completion of the course the students will be able to:

CO1 Describe the Feedback control systems and representation of control systems

CO2Analyze the basic concepts of Mechanical and electrical components with the Development of flightcontrol systems

CO3Apply the knowledge of Characteristic Equation and Functions of control system with Sample dataSystems An ability to understand the aircraft stability analysis.

CO4 Learn the concept of stability, bode techniques with frequency responseCourse Name Unmanned Aircraft Systems


CO1Understand the historical evaluation of Unmanned Aircraft Systems in Aeronautical EngineeringDevelopment

CO2Design the Unmanned Aircraft Systems by considering all design parameters and able to stabilize theUnmanned Aircraft Systems

CO3 Apply the Unmanned Aircraft Systems in the field of SurrivellanceCO4 Learn the Propulsion systems of unmanned aerial vehicle

Course Name Introduction to Wind Tunnel TechniquesOn successful completion of the course the students will be able to:

CO1Define the basic concepts of measurement of forces and moments on models during the wind tunneltesting.

CO2 Analyze the application of various types of wind tunnels.

CO3Develop the skills about measurement procedure involving wind tunnel testing and to understandnature flow over the various components.

CO4 Classify wind tunnel measurement and Analyze different types of wind tunnelsCourse Name Fundamentals of Flight

On successful completion of the course the students will be able to:CO1 Describe the concept of Basic properties and Basic terminologies of the AircraftCO2 Know about the performance characteristic of propeller and jet propulsion systems

CO3Learn Different types of aircraft systems and apply the methods for estimating performance of aircraft

CO4 Apply the Knowledge of Basic aerodynamics to AircraftsCourse Name Introduction to Space Systems

On successful completion of the course the students will be able to:CO1 Know about various orbits and orbit deviationsCO2 Learn the basic concept of control systems with mathematical modeling and Sub systems.CO3 Analyze planet and target planets and their trajectoriesCO4 Define about the concepts of Time response analysis and steady state analysis.

Course Name Aircraft Structures Repair LabOn successful completion of the course the students will be able to:

CO1 Learn Patch repair work by using compositesCO2 Analyze the Weld for the given Material by using TIG and MIG welding setupCO3 Use of sandwich panels for Aircraft industryCO4 Know the use of Sheet Metals for Aircraft Body development and other works

Course Name MAT LabOn successful completion of the course the students will be able to:

CO1 Learn basic principles of programming and of implementing mathematical concepts in MATLABCO2 Compute the Variables and constants by Simple Calculations of MAT LABCO3 Do the Experiment on Matrix Operations and Functions in MATLAB

CO4Analyze numerical algorithms and evaluate the computational results using graphical representations

Course Name Computer Aided Modeling And Analysis LaboratoryOn successful completion of the course the students will be able to:

CO1 Lean basic principles of Computer Aided Modeling and Analysis by using Ansys softwareCO2 Analyze the Stresses analysis in 2D and 3D problemsCO3 Compute the Conduction and Convection Boundary Conditions for Thermal Analysis.CO4 Do experiment on Fluid flow Analysis - Potential distribution in the 2 - D bodies

Course Name Hypermesh LaboratoryOn successful completion of the course the students will be able to:

CO1 Define the basic principles of meshing and Discretization of solid models.CO2 Develop the Mesh of Two dimensional modelCO3 Understand the concept of Meshing for Three dimensional modelCO4 Conduct Experiments on the Meshed models and to correct the meshing volumes

Course Name Aircraft System ControlOn successful completion of the course the students will be able to:

CO1 Understand the basic principles of Aircraft Operation and control techniquesCO2 Clear the problems in hydraulic and fuel systems.CO3 Do Experiment on Flow tests and Maintenance of AircraftCO4 Analyze the pressure and Brake load in Aircraft

Semester VICourse Name Composite Materials and Structures


CO1Apply the various composite materials and structures used in aircraft Applications and their testmethods.

CO2 Learn simple micromechanics and failure modes of composites.

CO3Analyse the effect sandwich construction in the aircraft materials and its prevention methods.

CO4 Learn the various open and closed mould processes, fabrication process.CO5 Construct the methods of manufacturing and analysis of different composite technique.

Course Name Heat TransferOn successful completion of the course the students will be able to:

CO1Derive the equation for temperature distribution in fins, to estimate the rate of heat transfer throughconduction through slabs, cylindrical and spherical surface objects.

CO2Knowledge about the rate of heat transfer and heat transfer coefficients for forced and free convectionHeat transfer problems.

CO3 Evaluate the radiant heat transfer between solid bodies, black or gray.

CO4Perform the LMTD & NTU analysis to the heat exchanger problems, to analyze and design the boilingheat transfer problems.

CO5Apply heat transfer principles (conduction, convection and radiation) in solving aerospace engineeringproblems that are related to heat transfer.

Course Name Experimental Stress AnalysisOn successful completion of the course the students will be able to:

CO1Understood the Measuring instruments; factors affecting measurements, errors and correctivemeasurements

CO2 Demonstrate the principles of different types of extensometers.CO3 Analyze the principles of rosettes and gather the requirements of the Strain gauges.

CO4Get knowledge about photo elasticity, stress optic law, compensation and separation techniques,interpretation of fringe pattern.

CO5Understand NDT, Radiography, ultrasonic, magnetic particle inspection, acoustic emission technique,holograph techniques were studied.

Course Name Finite Element AnalysisOn successful completion of the course the students will be able to:

CO1Understood the approximate analytical methods in FEA and concept of numerical analysis of structuralcomponents.

CO2Analyze the mathematical models for physical system using principle of minimum potential energy /principle of Virtual Work

CO3Acquired the finite element attributes, types, different types of boundary Conditions and interpolationfunctions. (2D & 3D)

CO4 Application of FEA to simple bars, Truss, Beam and Isoperimetric Element Formulation.CO5 Derive global stiffness matrix for triangular plane and they will analyses using ANSYS.

Course Name Aircraft Design LabOn successful completion of the course the students will be able to:

CO1Based upon the mission of the aircraft the students designated for a collection of data are collectedfrom different aircraft having the same mission.

CO2 Analyze the main design parameter for the aircraft design.

CO3Knowledge about the approximate weight of the aircraft that they design by specifying the differenttypes of weight of the aircraft, the types of power plant selected as well as aero foil selection and tailempennage.

CO4Evaluate the overall drag of the newly designed aircraft for further calculation on performance of theaircraft.

CO5 Apply the physical design with its operationsCourse Name Material Testing Lab

On successful completion of the course the students will be able to:CO1 Acquired the knowledge to perform various mechanical testing.CO2 Analyze the microstructure of various engineering materials.CO3 Knowledge of performing various non-destructive tests.CO4 Describe structures of metallic materials and their effects on mechanical properties.

Course Name Theory of ElasticityOn successful completion of the course the students will be able to:

CO1 Understood the Compatibility equations for stresses and strainsCO2 Describe the Numerical problems in assumption of elasticity.CO3 Study the Equations of equilibrium for types of dimensional bodiesCO4 Understood the Kirsch, Michell’s and Boussinesque problems.CO5 Describe about the Plane stress and Strain

Course Name Intellectual Property RightsOn successful completion of the course the students will be able to:

CO1 Understood the commitments to WTOCO2 Describe the General Agreement on Trade and TariffCO3 Study the strategies of Indian IPR legislationsCO4 Understood the Protection against unfair competition.CO5 Describe about the types of property

Course Name Wind Tunnel TechniquesOn successful completion of the course the students will be able to:

CO1 Understood about the Test section speedCO2 Describe about the wind tunnel measurementsCO3 Study the flow visualization in wind tunnel techniquesCO4 Understand the Calibration of supersonic tunnels.CO5 Describe about the model testing in wind tunnel

Course Name Boundary Layer TheoryOn successful completion of the course the students will be able to:

CO1 Gain the basic principles of navigation system.CO2 Understanding the control position of orbital Transfer under guidance system.CO3 Analyze the various control system techniques and its performance.CO4 Relate the control systems and guidance and control of launch vehicles.CO5 Knowledge about injection of satellite Spacecraft control techniques.

Course Name Flight TestingOn successful completion of the course the students will be able to:

CO1 Understood the Level flight performance in aircraft testingCO2 Describe the Flight Test methods in Stability & ControlCO3 Study the take-off, landing, turning flight methods in Performance flight testingCO4 Understood the Dive testing for flutter, vibration and buffeting.CO5 Describe about the Maneuvering stability methods & data reduction.

Course Name Aircraft Electronics Microprocessor and ApplicationsOn successful completion of the course the students will be able to:

CO1Evaluate the batteries which are used in aircraft and the various trouble shooting digital circuits.

CO2 Understood the basic concepts of transmitter and receiver in aircraft systems.CO3 Design system using memory chips and peripheral chips for 16 bit 8086 microprocessor.CO4 Evaluate the various microprocessor applications applied in flight control systems.

CO5Apply the knowledge of automatic flight control systems and its microprocessor applications.

Course Name Space Flight Navigation and Guidance ControlOn successful completion of the course the students will be able to:

CO1 Gain the basic principles of navigation system.CO2 Understanding the control position of Orbital Transfer under guidance system.CO3 Analyze the various control system techniques and its performance.CO4 Relate the control systems and guidance and control of launch vehicles.CO5 Knowledge about injection of satellite Spacecraft control techniques.

Course Name Applied Hydraulics and PneumaticsOn successful completion of the course the students will be able to:

CO1 Gaining the concept of fluid power systems and applications in industries.CO2 Understanding the working principle of hydraulic and pneumatic systems.

CO3Design the hydraulic and pneumatic circuits and exposure of diagnose or troubleshoot the powersystems.

CO4An ability to apply the applied hydraulics concepts to machining operations like shaping, punching,etc.

CO5Recognize the standard symbols of the different components used in fluid power and pneumaticssystems.

Course Name Structural DynamicsOn successful completion of the course the students will be able to:

CO1 Knowing various options of mathematical modeling of structures.

CO2Analyze the equations of motion for vibratory systems and solving for the free and forced response.

CO3 Knowledge in natural modes of vibration of structures.CO4 Evaluate the response of structures under various dynamically loaded conditions.

CO5Gaining knowledge in numerical and approximate methods of evaluating dynamic response of thesystems.

Course Name Aircraft Maintenance PracticeOn successful completion of the course the students will be able to:

CO1 Gain the knowledge in various ground support system for aircraft operations.

CO2Understood the operation of Air conditioning and pressurization systems in ground level conditions.

CO3Identify the aircraft component safety and reliability of aircraft systems service and its environmentalcondition.

CO4Ability to carry out the ground servicing of critical aircraft systems during the aircraft maintenancemanual.

CO5 Knowledge in specifications standards of aircraft hardware systems.Course Name Aero Engine Repair and Maintenance Laboratory

On successful completion of the course the students will be able to:CO1 Identify the defects in an aircraft’s piston engine and jet engine.CO2 Start the piston and jet engines of an aircraft with the help of user manuals.CO3 Evaluate the performance of various non-destructive tests.CO4 Develop the knowledge of Performance of air breathing engines.

Course Name Aircraft Interior Design LaboratoryOn successful completion of the course the students will be able to:

CO1Understand the importance of drawing and design process and phases involved in the design process.

CO2Ability to design various individual components, sub-assemblies and main assemblies in drawing lab.

CO3 Ability to Design various orthographic and isometric projections in drawing sheets.CO4 Ability to develop and understand Basic Concepts of aircraft.

Course Name CAD/CAM LaboratoryOn successful completion of the course the students will be able to:

CO1 Ability to develop 2D and 3D part models using modeling software.

CO2Ability to prepare engineering drawing for industrial component using Indian standard code ofpractice.

CO3 Ability to prepare bill of materials for production drawings.CO4 Ability to prepare the assembly models and apply the sectioning methods.

Course Name MAT LabOn successful completion of the course the students will be able to:

CO1Learn basic principles of programming and of implementing mathematical concepts in MATLAB.

CO2 Compute the Variables and constants by Simple Calculations of MAT LAB.CO3 Do the Experiment on Matrix Operations and Functions in MATLAB.

CO4Analyze numerical algorithms and evaluate the computational results using graphical representations.

Course Name Heat Transfer LaboratoryOn successful completion of the course the students will be able to:

CO1Understand the basic laws of heat transfer, account for the consequence of heat transfer in thermalanalyses of engineering systems.

CO2Analyze problems involving steady state heat conduction in simple geometries, develop solutions fortransient heat conduction in simple geometries.

CO3Obtain numerical solutions for conduction and radiation heat transfer problems, understand thefundamentals of convective heat transfer process.

CO4 Evaluate heat transfer coefficients for natural convection, inside ducts.Semester VII

Course Name Fracture Mechanics and MechanismsOn successful completion of the course the students will be able to:

CO1 Understood the mechanical behavior of a material under various loading conditions

CO2Acquire knowledge about the concept of stress concentration and able to plot S-N curves for variouscomponent fractures.

CO3 Exposure on nonlinear fracture-mechanics parameters, such as J and T integral.

CO4Knowledge about the rate of stress concentration statistical aspects of fatigue behaviour and FiniteElement analysis.

CO5 Analyze the effect of fatigue and fracture mechanics to engineering issues.Course Name Avionics

On successful completion of the course the students will be able to:CO1 Understood the needs of Avionics in Civil, Military Aircraft and Space systems.CO2 Apply basic inputs to aircraft digital instruments for efficient output.

CO3Knowledge about the various Avionics systems architecture and apply to sub systems in Aircraft.

CO4 Demonstrate the principles for different displays used in aircraft systems.CO5 Awareness of communication and navigation systems and their applications in aircraft.

Course Name Airline and Airport ManagementOn successful completion of the course the students will be able to:

CO1 Analyze the design requirements related to Airport Management operations.CO2 Estimate the runway requirements for performance of aircraft during takeoff and landing.

CO3Understood the functions and operation of the aircraft control, ground electronics airfield lighting,runway and taxi way markings.

CO4Appreciate the importance of weather, safety and collision avoidance to ensure Aviation safety andSecurity.Familiarize with next generation Radar, communication, ATC network and compliance toenvironmental acts.

Course Name Vibrations and Aero elasticityOn successful completion of the course the students will be able to:

CO1 Understood the basics of vibrations and simple harmonic motion.CO2 Differentiate between types of vibrations according to dampness and particle motion.

CO3 Understood the need of a multi degrees of freedom particle and its characteristics.CO4 Measuring the natural frequency of an object by using Rayleigh and Holzer method.CO5 Understood the formation of Aileron reversal, flutter and wing divergence.

Course Name Avionics LaboratoryOn successful completion of the course the students will be able to:

CO1 Design and analyze complex digital circuits.CO2 Develop and execute assembly language programs using 8085 for any applications.CO3 Interface and control stepper motors using 8085 microprocessor.CO4 Integrate avionic systems using MIL-STD-1553B data bus.CO5 Integrate avionic systems using ARINC 429 data bus.

Course Name Aircraft Systems LaboratoryOn successful completion of the course the students will be able to:

CO1 Perform aircraft jacking in order to perform maintenance and inspection.CO2 Remove and reinstall aircraft wings and undercarriage using manufacturer’s manual.

CO3Disassemble and assemble sub components of aircraft engines to perform maintenance and inspection.

CO4 Describe engine ground running procedure.CO5 Troubleshoot various systems of aircraft.

Course Name Design and Fabrication of AeromodellingOn successful completion of the course the students will be able to:

CO1

Apply the knowledge of Mathematics, Science, and fundamentals of Aerodynamics, Structures, andPropulsion to identify and formulate the engineering problems in aerospace applications.

CO2 Analyze and estimate the cost and time

CO3Simulate, analyze and interpret data using software tools such as MATLAB, ANSYS fluent, CFX,CFD++, ICEM CFD, GAMBIT, etc.

CO4

Develop a project planning strategy and work as an individual or as a member on project teams andcommunicate the results effectively by compiling project reports and presentations.

CO5 Develop an end product and prepare a technical report/paper.Course Name Helicopter Maintenance

On successful completion of the course the students will be able to:CO1 Helicopter basics are clearly understood and various maintenance procedures are followedCO2 Get a clear idea about Head maintenance with flight and mast control systems.CO3 Understand the transmission process in helicopter rotor and torque meter working.CO4 Power plant rotors and tail rotor working is studied Concept of rigging is clearly understood.CO5 Get an idea about fuselage maintenance procedures with special hardware requirements.

Course Name Helicopter AerodynamicsOn successful completion of the course the students will be able to:

CO1 Familiarize on major helicopter components, characteristics and configurations.CO2 Apply Momentum and simple blade element theories to helicopter’s rotor blades.

CO3Analyze the power requirements in forward flight and associated stability problems of helicopter.

CO4 Apply the ground effect concept to ground effect machines.CO5 Analyze the performance of VTOL and STOL aircrafts.

Course Name High Temperature MaterialsOn successful completion of the course the students will be able to:

CO1 Acquire knowledge of creep and their different stages of creep curve.CO2 Understood the mechanical behavior of material rupture life of brittle and ductile.CO3 Analyze the concept of fracture and their mechanics due to elevated temperature.CO4 Acquire the knowledge about oxidation and hot corrosion by addition of alloy elements.CO5 Familiarize the various super alloys and other materials.

Course Name Airworthiness and certificationOn successful completion of the course the students will be able to:

CO1 Explain the Airworthiness requirements for different categories of aircraftsCO2 Discuss the various certifications, technical log bookCO3 Explain the procedure for development, test flight and certificationCO4 Discuss the accident investigation proceduresCO5 Explain components and equipment including instruments.

Course Name Theory of Plates and ShellsOn successful completion of the course the students will be able to:

CO1 Explain classical plate theory and boundary conditionsCO2 Explain the various method of solution for different geometry of platesCO3 Discuss the various approximate methods to vibration analysis in platesCO4 Describe the basic concepts of shell type of structures

CO5Understand the behaviour of the plates and shells with different geometry under various types of loads.

Course Name Total Quality ManagementOn successful completion of the course the students will be able to:

CO1 Get the knowledge on philosophies of management and basic concepts.

CO2Gain the knowledge on leadership qualities and management tools of quality statistical concepts.

CO3Gain the knowledge about the defect component analysis and quality enhancing technique for practicalapplication.

CO4Have exposure on concepts like Quality Function Deployment, Benchmarking, Total ProductiveMaintenance and Failure Mode Effective Analysis.

CO5Gain the knowledge on the Quality certification procedure on ISO 9000, QS14000 and information onAuditing can be obtained.

Course Name Principles of Management and Business ConceptsOn successful completion of the course the students will be able to:

CO1 Describe and discuss the elements of effective management.CO2 Know about motivation theories.CO3 Gain the knowledge on managerial skills and business activities.CO4 Understanding of business concepts and its applications.CO5 Discuss and apply the planning, organizing and control process.

Course Name Non Destructive Testing and MaterialsOn successful completion of the course the students will be able to:

CO1 Apply scientific and technical knowledge to the field of non-destructive testing.CO2 Use the relevant non-destructive testing methods for various engineering practice.CO3 Analyse and interpret the defects to improve the overall quality of products.CO4 Develop their skills in inspection of the components.CO5 Increase overall reliability of the products by selection of suitable inspection techniques.

Course Name Robotics and AutomationOn successful completion of the course the students will be able to:

CO1 Analyzing the various parts of robots and fields of robotics.CO2 Understanding the various kinematics and inverse kinematics of robots.CO3 Determining the Euler, Lagrangian formulation of Robot dynamics.CO4 Understanding the basic concepts of the trajectory planning for robot.CO5 Understanding the Application of robot.

Course Name Industrial engineering and ManagementOn successful completion of the course the students will be able to:

CO1 Recall the history and describe the various management functions.CO2 Identify the role of staffing, work study, incentives, health and safety in management.

CO3Apply techniques of decision making, customer involvement, work-study, incentive schemes andprocess improvement.

CO4 Describe the various management behavioural technique.CO5 Describe the various process improvement technique.

Semester VIII

Course Name Rocket and MissilesOn successful completion of the course the students will be able to:

CO1 Design Consideration of liquid Rocket Combustion Chamber and Igniter.

CO2Acquire the knowledge about Aerodynamic Forces and Moments. Lateral Damping Moment andLongitudinal Moment of a Rocket.

CO3Learn about the 1D and 2D rocket Motions in Free Space and Homogeneous Gravitational Fields.

CO4Understood the Vertical, Inclined and Gravity Turn Trajectories in rocket motion and also the rocketsSeparation Techniques.

CO5 Familiarize with the selection of suitable materials for different rocket systemsCourse Name Computational Fluid Dynamics

On successful completion of the course the students will be able to:CO1 Identify and predict the flow regime in a given engineering systems non-dimensional groups.

CO2Calculate the hydrostatic forces and moments on planar and curved submerged and floating surfaces.

CO3 Decide when appropriate to use ideal flow concepts and the Bernoulli equation.

CO4Construct an appropriate (fixed, deforming, or moving) control volume for a given engineering system.

CO5Familiarize the principles of conservation of mass, momentum, and energy to this control volume.

Course Name Experimental AerodynamicsOn successful completion of the course the students will be able to:

CO1 Ability to explain the sources of friction, turbulence and drag.CO2 Ability to carry out experiments in both subsonic and supersonic wind tunnels.CO3 Ability to use Pitot static tube, hot wire anemometer, transducers.CO4 Acquire the knowledge about wind tunnel re-entry problems.CO5 Familiarize the aerodynamic flow properties and its experimental problems.

Course Name Structural DynamicsOn successful completion of the course the students will be able to:

CO1Acquire the knowledge of mathematics, science, and engineering by developing the equations ofmotion for vibratory systems

CO2 Solving for the free and forced response system structures.CO3 Solve problems on dynamic loading and evaluation of dynamic response.CO4 Determine the solutions for Un-damped systems.CO5 Familiarize about aircraft flutter analysis in structures.

Course Name Aerospace Quality AssuranceOn successful completion of the course the students will be able to:

CO1 Understood the impact of engineering solutions in a global and societal context.CO2 Familiarize the concepts of aerospace Quality Assurance and analysis the quality concepts.CO3 Optimize the management of the air traffic activities.

CO4Implies to go beyond the perimeter of the air traffic to encompass the aircraft flight crew members.

CO5 Aircraft operators in their operational management of flights.Course Name Computer Integrated Manufacturing

On successful completion of the course the students will be able to:CO1 Solve the design problems of different type of transfer mechanism.CO2 Perform design and analysis of automatic storage and retrieval system.CO3 Evaluate the space requirements of different storage system.

CO4Design the workstation requirement for unattended operations and automated production system.

CO5 Optimize the number of machines required for machine cell in a given production systemCourse Name Entrepreneurship Development, Management & IPR

On successful completion of the course the students will be able to:CO1 Recognize the importance of entrepreneurship and its role in economic development.

CO2 Identify various schemes of Central and State Governments and their agencies.CO3 Identify & select various projects to become entrepreneur by feasibility studiesCO4 Prepare project report for starting an enterprise in line with guidelines.CO5 Appraise of IP rights like patents, industrial design for effective protection

Course Name Computer Aided Design/Computer Aided ManufacturingOn successful completion of the course the students will be able to:

CO1 Select Input and Output Devices for Computer Systems for Requirements.CO2 The learning outcomes are assessed through the assignments.CO3 Apply Knowledge of Mathematical Concept For Geometry Manipulation.CO4 Operate CAD/CAM Packages to Prepare Solid Model of Components.CO5 Develop Computer Algorithm for Design and Analysis of Mechanical Systems

Course Name Human Values and Professional EthicsOn successful completion of the course the students will be able to:

CO1 Extrapolate and make awareness on the morality, integrity, honesty and spirituality.CO2 Judgment and assistance based on the ethical theory to tackle the moral issues.CO3 Professional reputation is witnessed due to the balanced outlook on law.CO4 Develop safety and responsibilities for the development of the employee.CO5 Drive to be a moral leader with the analysis of the global issues in the engineering society

Course Name Operational ResearchOn successful completion of the course the students will be able to:

CO1 Recall the history and describe the various management functions.CO2 Identify the role of staffing, work study, incentives, health and safety in management.

CO3Apply techniques of decision making, customer involvement, work-study, incentive schemes andprocess improvement.

CO4 Describe the various management behavioral technique.CO5 Acquire the knowledge about graphical solution for all the problems.

Course Name CombustionOn successful completion of the course the students will be able to:

CO1 Familiar with the concepts of air transportation and the maintenance management of aircraft.CO2 Apply the chemical kinetics and chemical equilibrium.CO3 Describe the concepts of engines and combustion system of engines.CO4 Apply the principles of combustion of rocket engines.CO5 The students will acquire knowledge about pollution and reduction of pollutants.

Course Name Air Transportation And Aircraft MaintenanceOn successful completion of the course the students will be able to:

CO1 Familiar with the concepts of air transportation.CO2 The student will be able to forecast the factors affecting the choice of fleet.CO3 Apply the principles of aircraft and crew schedulingCO4 Describe the concepts of EROPS and ETOPS and aircraft reliability.CO5 Apply the techniques of aircraft maintenance and monitoring.

Course Name Engineering OptimizationOn successful completion of the course the students will be able to:

CO1 Familiar with the concepts of Fibonacci method, Golden section methodCO2 Apply the Rosen Brock’s search and Simplex methods.CO3 Describe the concepts of -Lagrangian method.CO4 Apply the principles of Big-M & two-phase methodsCO5 The students will acquire knowledge about queuing & inventory

Course Name Gas Turbine TechnologyOn successful completion of the course the students will be able to:

CO1 Explain the Airworthiness requirements for different categories of aircrafts.CO2 Discuss the various certifications, technical log book.CO3 Explain the procedure for development, test flight and certification.CO4 Discuss the accident investigation procedures.CO5 Familiar with the performance predictions.

Program Name B.Arch (ARCHITECTURE)Semester I

Course Name MATHEMATICSOn successful completion of the course the students will be able to:

CO1 Understanding the applications of probability concepts.CO2 Acquiring the knowledge of graphical representation tools.

CO3Applying the techniques to solve ordinary differential equations and integral equations which have anapplication in many engineering fields.

C04 Understanding the effect of two dimentional and three dimentional geometry in architecture.Course Name HISTORY OF ARCHITECTURE - I

On successful completion of the course the students will be able to:CO1 A detailed understanding of Western (Christian) architecture.

CO2An understanding about the spatial and stylistic qualities associated with church architecture

CO3 An idea about Chennai Christian Architecture with the help of assignments.

C04An Understanding of the architecture as an outcome of various social, political and economicupheavals, and as a response to the cultural and climate conditions.

Course Name PRINCIPLES OF ARCHITECTURE IOn successful completion of the course the students will be able to:

CO1A thorough understanding on the definition of architecture; elements of architectures of form andspace.

CO2 An exposure to the principles of architecture and applications of the same in buildings.Course Name MATERIALS & CONSTRUCTION I


CO1The students by the end of the course will be able to Draft and read architectural drawings usingarchitectural conventions and discuss in detail.

CO2Identify the basic building components of a building such as brick, mortar, masonry construction,lintels and arches and their construction methods.

CO3Use appropriate building materials based on the properties, behavior and applications and identifyingthe particular materials for usage of load bearing building.

Course Name ARCHITECTURAL GRAPHICS – IOn successful completion of the course the students will be able to:

CO1An understanding on the concepts of architectural drawing as well as representation skills are imparted.

CO2An understanding on the building representation in 2D and 3D among students in addition topreparation of measured drawing

Course Name ART STUDIOOn successful completion of the course the students will be able to:

CO1 The students are exposed to various mediums and techniques.CO2 Bold enough to handle to the colours for the presentation sheets.CO3 The students are mastery in sketching and expression through forms.C04 The skill and knowledge gained through the subject is most useful to their profession

Course Name DESIGN STUDIO IOn successful completion of the course the students will be able to:

CO1 An understanding of the qualities of different elements as well as their composite fusions.

CO2An ability to engage and combine the elements of design in spontaneous as well as intentional ways inorder to create desired qualities and effects.

Course Name PERSONALITY DEVELOPMENTOn successful completion of the course the students will be able to:

CO1 Ability to build confidence and guide thought process.

CO2It helps the students achieve effectiveness in their professional activities, harness skills and developqualities suited for the profession.

CO3Allow the students to observe and interpret individual differences in behavior in the light of soundtheoretical systems of personality.

Course Name ART APPRECIATION

On successful completion of the course the students will be able to:CO1 Ability to understand and appreciate art as a fundamental human expression.CO2 Awareness of important art productions in the West and India.

CO3Sensitivity towards individual and collective human cultural productions as unique expressions ofhistorical and geographic context.

Course Name ARCHITECTURAL PHOTOGRAPHYOn successful completion of the course the students will be able to:

CO1 Comprehensive understanding of architectural lighting, film, exposure and light balance.

CO2Ability to use High Dynamic Range (HDR): multiple exposures to create dramatic architecture/interiorimages without additional professional lighting.

CO3Control of Parallax (Free Transform Procedure) to correct distortion and perspective so buildings donot look like they are leaning to one side or falling back.

CO4 Creation of exceptional images with light and architecture, including dusk imagery.Course Name BASICS OF CIVIL ENGINEERING

On successful completion of the course the students will be able to:CO1 The students will be able to illustrate the fundamental aspects of Civil Engineering.CO2 The students will be able to plan and set out a building.

CO3Students will be able to explain the concepts of surveying for making horizontal and verticalmeasurements.

CO4They will able to illustrate the uses of various building materials and explain the method ofconstruction of different components of a building.

Semester IICourse Name MECHANICS OF STRUCTURES- I


CO1Apply the concepts of action of forces on a body and should be able to apply the equilibrium concepts.

CO2 Analyze any type of determinate trusses with different end conditions.CO3 To solve the sectional properties for any geometrical shapes.

C04The concepts of elastic constants and its applications for various types of problems with a thoroughunderstanding of stresses and strain.

Course Name HISTORY OF ARCHITECTURE - IIOn successful completion of the course the students will be able to:

CO1The students understood Indian architecture as a response to the political and socio cultural conditionspresent in India at different points of time.

CO2 The architectural responses were understood with respect to technology style and characterCourse Name PRINCIPLES OF ARCHITECTURE II

On successful completion of the course the students will be able to:CO1 An understanding the meaning of character and style of buildings with examples

CO2An exposure to students on ideologies and philosophies of architectures of contemporary architectsthrough examples.

CO3 An exposure to analysis and experience of architecture through case studiesCourse Name MATERIALS & CONSTRUCTION II

On successful completion of the course the students will be able to:CO1 An Understanding of timber products and methods of construction and detailing.CO2 An Understanding of cost effective building technologies.

Course Name ARCHITECTURAL GRAPHICS – IIOn successful completion of the course the students will be able to:

CO1The techniques and skills gained learned through this subject Architectural drawing II is very useful totheir profession

CO2Able to construct the perspective drawings of the buildings and 3d views as well the documentation ofbuildings through drawings.

Course Name COMPUTER STUDIO IOn successful completion of the course the students will be able to:

CO1The students benefit by learning software which helps them to explore 2D drafting and detailing ofbuildings

Course Name DESIGN STUDIO IIOn successful completion of the course the students will be able to:

CO1The characteristics of site, importance of site planning and built form/open space relationship as beenunderstood. User group responses were ascertained through case-studies.

CO2 Presentation of concepts was enabled through 2D drawings, sketches of model.Course Name Rendering techniques and model making workshop.

On successful completion of the course the students will be able to:CO1 Gain knowledge on the rendering techniques and presentation skills.CO2 Explore different materials in model making of small scale building components.

Course Name DESIGN FUNDAMENTALS IN ARCHITECTUREOn successful completion of the course the students will be able to:

CO1 Understand the process in designing of spaces and representation in a graphical format.CO2 Concepts and stages involved in development the design .

Course Name COMMUNICATION SKILLSOn successful completion of the course the students will be able to:

CO1Developed skills in effective communication – both written and verbal and to explore the potential ofmedia technology and the Internet to enhance communication.

CO2 Enhanced reading particularly, rules and regulations, catalogues, architecture journals and textbooks.CO3 It developed their writing skills especially writing emails, proposals and reports.

Semester IIICourse Name MECHANICS OF STRUCTURES – II

On successful completion of the course the students will be able to:CO1 Apply the concepts of determining the techniques of finding the stresses.CO2 Use the theory of simple bending theory to find the deflection in beams.CO3 Analyze and solve the different types of columns.CO4 Analyze the different types of indeterminate beams.

Course Name HISTORY OF ARCHITECTURE – IIIOn successful completion of the course the students will be able to:

CO1 A detailed understanding of western (christian) architecture.CO2 an understanding about the spatial and stylistic qualities associated with church architectureCO3 An idea about chennai christian architecture with the help of assignments.

C04An understanding of the architecture as an outcome of various social, political and economicupheaveals, and as a response to the cultural and climate conditions.

Course Name CLIMATE RESPONSIVE ARCHITECTUREOn successful completion of the course the students will be able to:

CO1 Understanding of Thermal balance in Human beingsCO2 Designing Climate responsive structureCO3 Conceptual understanding of Air flow in Buildings

Course Name ENVIRONMENTAL SCIENCE AND ENGINEERINGOn successful completion of the course the students will be able to:

CO1Students are sensitized on the need for natural resource management, and sustainable lifestyles.

CO2Students appreciate the value of ecosystem and the need and methods for conserving the same.

CO3 Students understand the how pollution and hazards can be mitigated.Course Name MATERIALS AND CONSTRUCTION - III


CO1The students understood how Reinforced Cement Concrete could be used for the various componentsof a building as well as in waterproofing and insulation and protection systems.

CO2The role of advanced construction systems that have been developed by research institutes throughoutthe country were also explored.

CO3Quality assurance and testing methods, after looking at the basics and research explorations associatedwith the materials were looked at

Course Name COMPUTER AIDED DESIGN STUDIO II


CO1The students benefit by learning software which helps them to better visualize complicated forms andalso helps in producing photo realistic images of those 3D forms

Course Name DESIGN STUDIO – IIIOn successful completion of the course the students will be able to:

CO1The students were exposed to the various components and aspects associated with design concepts andits evolution in public spaces.

CO2They were also explored to the anthropometric detail for physically handicapped persons in publicbuildings. Students were also asked to document and present the related details collected for the design

Course Name BEHAVIORAL STUDIES IN BUILT ENVIRONMENTOn successful completion of the course the students will be able to:

CO1The students were made to understand the behavior in built environment and analysis how the spacemaking is done.

CO2 Exercise to do a behavioral design process model for different environment.

CO3They’ll be able to analyze and do a presentation on psychological issues of urban environmentconsidering the neighborhood contexts.

Course Name MODULAR CO-ORDINATIONOn successful completion of the course the students will be able to:

CO1The students understood the role of different material and techniques adopted in modular construction.

CO2 They were made aware of various aspects in prefabricate structures.

CO3Exercise based on the latest construction techniques and presentation to be done on the live casestudies of the known architects.

C04Exercise done in model making on tensile structures, space frames etc to get the get betterunderstating.

Course Name THEORY OF DESIGNOn successful completion of the course the students will be able to:

CO1They’ll be able to analyze various stages of design process and implement the same in their design.

CO2They’ll get exposed to the works of eminent architects and be able to analyses the design thinkingprocess.

CO3The students were made to understand how architectural design solutions generated are linked tophilosophy, strategies that lead to creativity in architecture.

Course Name VERNACULAR ARCHITECTUREOn successful completion of the course the students will be able to:

CO1Students will be able to understand the character of the multi cultured architectural expression throughcase studies.

CO2They’ll be asked to do documentation and presentation on planning principles of different towns fortheir better understanding of local culture.

Semester IVCourse Name ANALYSIS & DESIGN OF STRUCTURES – I

On successful completion of the course the students will be able to:CO1 Design the timber beams and columns by applying the codal provisions.CO2 Able to design the steel joints for maximum efficiency and strength.

CO3Tension members and compression members are designed for various conditions by applying the codalprovisions.

C04Different types of laterally unsupported & supported beams to be designed for various conditions.

Course Name HISTORY OF ARCHITECTURE IVOn successful completion of the course the students will be able to:

CO1 Architectural responses as reactions to changing cultural paradigms.CO2 An understanding of post independent Indian architecture.CO3 Influences of culture and climate of the period on buildings.C04 The Hindu and Islamic architectural styles, character and influence.

C05 Construction techniques and architectural characteristics of the period.Course Name SITE PLANNING & ANALYSIS


CO1The contextual importance on site analysis can be understood based on the various site factor withrespect to the study area.

CO2 To document on-site and off-site factors , contour analysis and grading.CO3 Various scientific and analytic site analysis techniques is understood.

C04A methodological approach for preparation of master plans for small scale and large scale projects canbe understood.

C05 To prepare site analysis diagram (Housing development , commercial and institutional projectsCourse Name BUILDING SERVICES I


CO1Students have through understanding of how water and waste water are managed, in residential unit,small campus and for a large city.

CO2Students are aware of the principles and best practices for Solid waste management in residential unit,small campus and for a large city.

Course Name MATERIALS & CONSTRUCTION IVOn successful completion of the course the students will be able to:

CO1An Understanding of ferrous and Non-ferrous metals in terms of its properties, manufacture and theirapplications in architectural construction.

CO2The students are able to understand in detail the method of construction of various buildingcomponents using steel and aluminum.

CO3This also helps the student to understand the different construction practices adapted for the variouscomponents specific to the material in which its made.

Course Name DESIGN STUDIO IVOn successful completion of the course the students will be able to:

CO1

Students ability to understand the concept of community and settlement evolution and the builtenvironment as influenced by Socio-economic, Cultural, Environmental and Technical factors.

CO2Ability to provide a sensitive approach to the design of the built environment taking into account theabove mentioned factors.

Course Name ENERGY EFFICIENT ARCHITECTUREOn successful completion of the course the students will be able to:

CO1The students are exposed to alternative sources of energy and are exposed to passive designconsiderations

CO2An understanding on site design conditions for various climatic zones in creating sustainable builtenvironment.

Course Name TRADITIONAL INDIAN ARCHITECTUREOn successful completion of the course the students will be able to:

CO1The students are exposed to the traditional architecture of India, which is rooted in its history.

CO2An understanding on site design conditions for various vastuprinciplesbased on energy in creating asuitable built environment.

CO3The students are enabled to incorporate the traditional unique system of measurement in design ofbuildings.

Course Name ERGONOMICS IN BUILDING DESIGNOn successful completion of the course the students will be able to:

CO1 Understand the relevance of human factors and anthropometrics to environmental design.CO2 Explain the importance of ergonomic design in the built environment.

CO3Analyze anthropometric dimensions for designing interior spaces and products for children, men,women, elderly and physically challenged individuals.

C04 Demonstrate design analysis that follows the principles of human factors/ergonomics.Course Name SPATIAL PLANNING STRATEGIES


CO1Space planning for public areas- restaurant, café, theatre lounge, waiting rooms, hotel foyer etc basedon analysis of human behavior and perception of space.

CO2 Understanding the Human behavior in various public and private areas.CO3 Study on Relationship between spatial elements and human behavior.

Semester VCourse Name ANALYSIS AND DESIGN OF STRUCTURES – II

On successful completion of the course the students will be able to:CO1 Gain basic knowledge about concrete and its applications with case studies.CO2 Understanding the various methods in designing the members such as beams and slabs.CO3 Apply the limit state design methods to design RCC beams and slabs and present the same.

CO4Present drawings and case study on concrete beams and slabs through photography documentation,video presentation and modeling.

Course Name HISTORY OF MODERN ARCHITECTURE - IOn successful completion of the course the students will be able to:

CO1The students will be able to understand the changes that happened in the society and theories of Boulleand Ledoux on architecture through book reviews and present the same.

CO2Inventions of new materials like steel, concrete and glass, their adoption in buildings, and theorganization of international exhibitions led to new expressions in architecture is presented.

CO3Gain knowledge about the “Art Nouveau Movement” the pioneers of the movement and earlyarchitecture works of architect F.L.Wright with documents and present the same.

CO4

Presentation on various other philosophies like futurism, expressionism, brutalism, constructivism, andthe pioneers of these Philosophies through study of select works of them.

CO5Able to analyze the Bahaus school of thought and understand contemporary trends in Indian andwestern architecture in terms of ideas and direction through the works of outstanding architects.

Course Name INTERIOR DESIGN PRINCIPLESOn successful completion of the course the students will be able to:

CO1 Case study presentations to understand the vocabulary of interior design in Indian context.CO2 Present live scale furniture design models for various spaces.

CO3Understand the various components in interior space and present the same through drawings.

Analysis of interior lighting through case study or video presentations.Provide interior landscape design with necessary details and drawings for terrace garden courtyardsetc.

Course Name BUILDING SERVICES IIOn successful completion of the course the students will be able to:

CO1Electrical Drawing with the basics of Electricity and wiring system to be submitted for a residentialbuilding.

CO2 Catalogues on various types of lights to be collected and displayed.CO3 Prepare, Design and estimate the electrical load required for any building.CO4 Apply the illumination required for different occupancies and tasks.

CO5Case study visit to recording to understand the spatial design characteristics of studios and materialsused.

Course Name MATERIALS & CONSTRUCTION VOn successful completion of the course the students will be able to:

CO1

The students understood various components of buildings in terms of damp proofing and waterproofingthrough case study of swimming pool and collections of materials and catalogue.

CO2The construction techniques of thermal insulation in a cold storage to be presented as a report.

CO3Analyze and present the different construction practices adapted for the various components specific tothe material and finishes in the floor and wall coverings.

Course Name WASTE MANAGEMENT AND RECYCLINGOn successful completion of the course the students will be able to:

CO1Explore new alternative energy resources and building materials for healthy environments throughliterature studies.

CO2 Ensure a sustainable design approach through waste recycling methods.

CO3Understand the significances of sustainable development and the need to enforce the environmentalacts

Course Name STRUCTURE AND ARCHITECTUREOn successful completion of the course the students will be able to:

CO1The structural design in the pre-industrial and post-industrial era is presented with detailed drawingsand sketches.

CO2 Literature review and presentations of the world renowned buildings as case examples.CO3 A critique of any one case example of Architects works mentioned above to be discussed.

Course Name SAFETY SYSTEMS AND BUILDING MANAGEMENTOn successful completion of the course the students will be able to:

CO1Ability to understand the safety requirements for a high rise building as per the National BuildingCode.

CO2Identify and define the basic concepts of Fire Alarm System, Technology of detection, and Type ofStatutory Standards.

CO3

Students learn and use the basic knowledge about Design of Fire Alarm System and installation,Essential components of a Fire Suppression System, different types of Fire Suppression Systems.

CO4

Ability to understand the different types of Security Systems and various types of technologiesemployed in these Systems and design and installation with suitable case studies.

CO5Apply the basic knowledge about Integrated Building Management System (IBMS) and design andinstallation of IBMS in any case and present the same.

Course Name MULTIMEDIA DESIGN TOOLSOn successful completion of the course the students will be able to:

CO1 Understand the digital techniques in the thinking and presentation of design.CO2 Knowledge on design animation and creation of avi. Files.CO3 Abstraction and development of design models using sketch up.

Semester VICourse Name ANALYSIS & DESIGN OF STRUCTURES – III

On successful completion of the course the students will be able to:CO1 Gain basic knowledge about RCC column and its applications with case studies.CO2 Design of dog legged staircaseCO3 Design of isolated column footing and combined footing.CO4 The concepts and design of cantilever retaining wall.CO5 Principles and methods of prestressed concrete.

Course Name HISTORY OF MODERN ARCHITECTURE - IIOn successful completion of the course the students will be able to:

CO1 Introduced the condition of modernity and its impact on architecture.

CO2The evolution of modern architecture from specific aspects of modernity like Industrialization,Urbanization etc and its post-world war II trajectories were studied.

CO3 Gained knowledge of the different post modern direction in architecture.Course Name BUILDING SERVICES III

On successful completion of the course the students will be able to:CO1 The students are exposed to various air conditioning systems and their applications.CO2 They are also exposed to various design issues in the distribution systems.CO3 An understanding of fire safety, firefighting, fire prevention and installations in buildings.

A detail understanding of design guidelines of vertical transportation system in current trends.

Course Name MATERIALS & CONSTRUCTION VIOn successful completion of the course the students will be able to:

CO1How to innovate better technology through the recent research building materials and its advantage inbuilding industry.

CO2Knowing the advance and techniques used for the large precast foundation and large span slabssupports.

CO3 Acknowledge on the Elevators and Escalators its function and their installation details.

Exercise the knowing it on the Conveyors system in building and their advantage and usages.

Understanding the modern usages of built- furniture and fitting etc, the aesthetic appeal and efficiencyin building construction.

Course Name DESIGN STUDIO VIOn successful completion of the course the students will be able to:

CO1The student would be able to balance diverse aspects of buildings by makingright choices in designsituations after studying various criteria.

CO2They would be able to apply knowledge in realms such as sustainable built environment, services andcomplex building designs

Course Name ARCHITECTURAL ACOUSTICSOn successful completion of the course the students will be able to:

CO1 To understand design fundamental of sound and its influences in design typologies.CO2 To knowledge on the acoustical design of shapes and building interior acoustics.CO3 To understand get exposed to integrate acoustic materials.CO4 To understand construction and fitting typologies of acoustic and its materials.CO5 To understand designing of various acoustical building design in apart of acoustic.

Course Name EARTHQUAKE RESISTANT BUILDING DESIGNOn successful completion of the course the students will be able to:

CO1 Basic terminologies in earthquakeCO2 Various techniques to control earthquakeCO3 Problems on single and multi-degrees of freedom system of structuresCO4 Indian standard code for disaster resistant codal provisionsCO5 Various guidelines for Earthquake resistant designCO6 Case study presentations of the disasters happened worldwide could be presented.

Course Name SUSTAINABLE PLANNING AND ARCHITECTUREOn successful completion of the course the students will be able to:

CO1

The course ends with the completion of an “impact project “, where students will collaborate todesign/learn and implement a short project that addresses the myriad problems and opportunitiespresented by sustainability.

Course Name GRAPHIC AND PRODUCT DESIGNOn successful completion of the course the students will be able to:

CO1The students will understand the role of Graphic and product design as a discipline, and its role inunderstanding and interpreting a real life design.

CO2Various reading methods were explored, to understand the contemporary design process as well asmanufacturing process of design.

Semester VIICourse Name AFFORDABLE HOUSING


CO1Ability to understand issues relating to Housing policy and need for Affordable housing. Followingcost effective techniques and yet design for diversity.

Semester VIIICourse Name LANDSCAPE ARCHITECTURE & DESIGN

On successful completion of the course the students will be able to:CO1 Awareness of the role of landscape design with respect to macro scale ofCO2 Knowledge about the elements of landscape design and their scope.

CO3Sensitivity towards evolution of different garden and landscape design across time and context.

CO4 An understanding of landscape design with respect to site planning and differentCourse Name HUMAN SETTLEMENTS & PLANNING

On successful completion of the course the students will be able to:CO1 Basic understanding and presentations on the Structure and form of Human settlements

CO2Various reading methods were explored, to understand the historical as well as present urban form, thedynamics of Urban Form and various Human Settlements pattern

CO3An understanding of the interrelationship between Human Settlements structure and Social Dynamics

Course Name SPECIFICATION, ESTIMATION AND VALUATIONOn successful completion of the course the students will be able to:

CO1 An understanding of the art of building construction through specification writing.

CO2Ability to work out the approximate estimate and detailed estimate for small scale building projects andlow cost housing.

CO3 An understanding of valuation and budgeting.Course Name WORKING DRAWING & DETAILING

On successful completion of the course the students will be able to:CO1 An understanding of all the aspects that go into the making of a building throughCO2 Ability to resolve spatial concerns with technical aspects of a building.CO3 Ability to design and detail components within a building.

Course Name DESIGN STUDIO - VIIOn successful completion of the course the students will be able to:

CO1Design advanced and complex problem comprising of group and multistoried structures andinfrastructures.

CO2 Use computer for drawing and presentation skills using appropriate softwares.Course Name SERVICES FOR HIGH- RISE BUILDINGS


CO1Understanding of various service systems for a high rise building as per the National Building Code.

CO2 Knowing the advanced technologies used for water management and sewage treatment.

CO3The students are exposed to various heating, Ventilation, air conditioning systems and theirapplications.

CO4 An understanding of fire safety, firefighting, fire prevention and installations in buildings.

CO5 A detail understanding of design guidelines of vertical transportation system in current trends.Course Name ADVANCED STRUCTURES


CO1Students would be able to know about design of pile foundation as per national building code andanalysis of three hinged arches with the application in real case study.

CO2Students shall gain theoretical knowledge about concepts behind tall structures, tensile structures,pneumatic structures shells, folded plates and domes.

Course Name CONTEMPRORY PROCESS IN ARCHITECTUREOn successful completion of the course the students will be able to:

CO1Students would be able understand the effect of contemporary theories of media on contemporaryarchitectural design.

CO2Student shall gain insight to the various contemporary design process/theories and theirrelation tocomputation.

CO3Students would be able to identify and go in depth into specific and appropriate aspects relating to thediscipline of architecture and reflect this in the realm of design

Course Name AFFORDABLE HOUSINGOn successful completion of the course the students will be able to:

CO1Ability to understand issues relating to Housing policy and need for Affordable housing. Followingcost effective techniques and yet design for diversity.

Course Name INTERNSHIP PROGRAMOn successful completion of the course the students will be able to:

CO1 Facilitated an understanding of the evolution of an architectural project from design to execution.

CO2

Ability to enable an orientation that would include the process of development of conceptual ideas,presentation skills, involvement in office discussions, client meetings, development of the concepts intoworking drawings, tendering procedure, site supervision during execution and coordination with theagencies involved in the construction process.

Semester IXCourse Name URBAN DESIGN


CO1Awareness of the evolution and characteristics of urban forms, their components andinterdependencies.

CO2Ability to understand and interpret characteristics, aspects and issues of contemporary cities.

CO3 Sensitivity towards the interdependencies in the built environment at macro and micro scales.Course Name PROFESSIONAL PRACTICE AND ETHICS

On successful completion of the course the students will be able to:CO1 Awareness of the architects role in society, managements and its acts.CO2 To understand the services to do the profession with scale off charges and ethics.CO3 Understanding the tender and document and types of competition.CO4 Understanding the bye laws and duties of architect in the society.CO5 Understanding the conducts and duties and its liabilities.

Course Name DISSERTATIONOn successful completion of the course the students will be able to:

CO1It made students to independently handle and present all aspects of an architectural design, from itsevolution to final solution in totality.

CO2Understand the importance of the evolutionary stages of a design process and various techniquesrequired for a successful presentation of an architectural design.

CO3Development in students the ability to handle specific aspects / thrust area of design relevant to thetopic.

Course Name DESIGN STUDIO VIIIOn successful completion of the course the students will be able to:

CO1 Ability to perceive and design buildings as contributing to/transforming the urban fabric.CO2 Ability to bring inclusivity into the architectural design process.

Course Name ARCHITECTURAL CONSERVATIONOn successful completion of the course the students will be able to:

CO1An understanding of the importance of heritage, issues and practices of conservation through casestudies.

CO2 Familiarity with historic materials and their properties, different technologies forCourse Name INDUSTRIAL ARCHITECTURE


CO1The importance of industrial architecture and can be understood based on the various aspects such ashistory and materials and technology

CO2 The students get an exposure to various style and design aspects of industrial architectureCO3 The students get an exposure to Zoning principles, factories Act and Rules

CO4The students get an exposure to Environmental control details with respect to various industries

CO5 The students can understand the Contemporary trends involved in the industrial architecture

CO6Have knowledge on the substantial difficulty in designing parallel and distributed algorithms incomparison to centralized algorithms

Course Name ADVANCED BUILDING MATERIALS& TECHNIQUESOn successful completion of the course the students will be able to:

CO1 Exposure to the need and use of various contemporary materials in creating innovation

CO2An understanding of characteristics and performance of the newer materials in terms of detailing andapplication to the context.

Course Name DISASTER MITIGATION AND MANAGEMENTOn successful completion of the course the students will be able to:

CO1Students ability to understand the formation and causes of various disasters and the factors to beconsidered in the Design of buildings and services to resist them.

CO2 Case study of the disasters happened worldwide could be presented.Course Name URBAN AND REGIONAL PLANNING


CO1The student will understand and exposed to classification of settlements, land-use, zoning, types ofdevelopment plan, will be acquainted with the current issues in urban planning.

CO2The students will be familiarized with simple Town planning techniques and futuristic concepts.

Course Name CONSTRUCTION PLANNING AND MANAGEMENTOn successful completion of the course the students will be able to:

CO1The student should be able to apply the construction management techniques in solving theconstructional problems efficiently.

CO2The student should be able to understand the Different PMT to be applied in respective areas.

CO3 The student should be able to Understand the Quality and Resource management

CO4The student should be able to understand the contract document and contract laws and handling ofcontracts in the construction industry

CO5The student should be able to understand and apply the safety planning and management systems insolving the constructional problems efficiently.

Course Name STEEL IN ARCHITECTURE AND DESIGNOn successful completion of the course the students will be able to:

CO1 An understanding of steel as a structural, functional and aesthetic material in designCourse Name ENVIRONMENTAL PLANNING AND DESIGN

On successful completion of the course the students will be able to:CO1 Understanding the basic environmental resources and its pro’s and con’s.CO2 Understanding the EIA methods and datasheets development.CO3 Understanding the legislation and its norms adopted to overcomes the causes

CO4Understanding the planning techniques and its measurement to value the EIA through different cases.

Semester XCourse Name THESIS

On successful completion of the course the students will be able to:CO1 Skill, knowledge and expertise in the domain of architectural design.CO2 Ability to handle a major architectural project independently through all stages.

Program Name B.E. (BIOMEDICAL ENGINEERING)Semester I

Course Name TECHNICAL ENGLISH - IOn successful completion of the course the students will be able to:

CO1 The ability to comprehend facets of grammarCO2 The ability to be proactively readCO3 The ability to interactCO4 The ability to carry out extempore discussions

Course Name ENGINEERING MATHEMATICS - IOn successful completion of the course the students will be able to:


CO2Determining the solutions of ordinary differential equations by various methods which have anapplication in their core subjects

CO3 Acquiring the basic knowledge of ordinary and partial differential calculusCourse Name ENGINEERING PHYSICS


CO1To understand properties of solids with different types of moduli and to gain knowledge aboutabsorption coefficients of solids and different surfaces

CO2 To understand basic concepts of high frequency sound waves and its applications

CO3To understand basic concepts of quantum mechanical behaviour of wave and particle along withapplications

Course Name ENGINEERING CHEMISTRYOn successful completion of the course the students will be able to:

CO1 Understanding the concepts of electrochemistry and Energy storage devicesCO2 Understanding the chemistry of CorrosionCO3 Applying the basic concepts of thermodynamics for engineering stream

Course Name FUNDAMENTALS OF COMPUTING &C PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Acquire knowledge in computer problem solving techniquesCO2 Formulate algorithm for simple problemsCO3 Implement the programs in C using arrays and strings


CO1 Understand the role of Biomedical EngineersCO2 Know the fundamentals of diagnostic devicesCO3 Know the principles of radiological equipments


CO1Understanding the moduli of elasticity by determining Young’s modulus and Rigidity modulus of abeam and cylinder respectively

CO2Understanding the phenomenon of diffraction, dispersion and interference of light using opticalcomponent

CO3Acquiring knowledge of viscosity by determining coefficient of viscosity of a liquid and measuring theparameters of ultrasound propagating through a liquid

Course Name ENGINEERING PRACTICE LABORATORYOn successful completion of the course the students will be able to:

CO1 An ability to prepare simple wooden joints using wood working tools.

CO2Students will be able to prepare the pipe connections and identify the various components used inplumbing

CO3Ability to demonstrate basic electrical electronic and computer components based on their physicalparameters and dimensions

Course Name FUNDAMENTALS OF COMPUTING &C PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1Efficiently apply MS-Word and MS-Excel for creating document & spreadsheets for variousapplications

CO2 Design presentation using MS-PowerPoint with animation effectsCO3 Develop programs in C for any computing problems

Semester IICourse Name TECHNICAL ENGLISH-II



CO3 The ability to interact, translate and delegate informationCourse Name ENGINEERING MATHEMATICS-II


CO1Determine the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields

CO2 Learn the basic concepts of analytic functions and transformations of complex functionsCO3 Master the integration in complex domain


CO1 The knowledge gained on Polymer chemistryCO2 Recall the behaviour of Engineering materials

CO3Fuels and adsorption will facilitate better understanding of engineering processes and applications forfurther learning


CO1The student will be able to perform free hand sketching of basic geometrical constructions and multipleviews of objects

CO2 The student will be able to draw projections of solids, section of solid and development of surfacesCO3 The student will be able to prepare isometric and perspective sections of simple solids

Course Name ELECTRIC CIRCUITS AND ELECTRON DEVICESOn successful completion of the course the students will be able to:

CO1 Analyze the two port networks using different techniquesCO2 Describe the concept of intrinsic and extrinsic semiconductors and its characteristicsCO3 Explain the concept of transistor configurations and their applications

Course Name ENGINEERING CHEMISTRY LABOn successful completion of the course the students will be able to:

CO1 Carry out the volumetric experiments and improve the analytical skills.

CO2Understand the maintenance and usage of analytical instruments and thereby develop their skills in thefieldOn successful completion of the course the students will be able to:


CO2Apply their knowledge for protection of different metals from corrosion by using different inhibitors

Course Name CIRCUIT AND DEVICES LABOn successful completion of the course the students will be able to:

CO1 Demonstrate the different Laws for Network circuitsCO2 Demonstrate the different Laws for Network circuitsCO3 Analyze various Theorems for Network circuits

Course Name BASIC WORKSHOP PRACTICES LABOn successful completion of the course the students will be able to:



Semester IIICourse Name ENGINEERING MATHEMATICS - III

On successful completion of the course the students will be able to:CO1 Gaining the concept of analysis of linear discrete system using Z-transform approach.

CO2Applying Laplace transform techniques to solve ordinary differential equations which have anapplication in many engineering fields.

CO3 Understanding the effect of Fourier transform techniques and their applications.Course Name ENVIRONMENTAL SCIENCE & SUSTAINABILITY

On successful completion of the course the students will be able to:CO1 To understand & appropriate the structure of ecosystem and its impact on environment.CO2 To understand the various natural resources and biodiversityCO3 To recognize the environmental problems caused due to pollution.

Course Name LIFE SCIENCES-IOn successful completion of the course the students will be able to:

CO1 Understood the importance of transport of substances across the cell membrane.CO2 Gained knowledge of blood components in blood grouping and differential count analysis.

CO3Understood and implemented the knowledge on physiology of kidney, respiratory and cardiac cycle.

Course Name DIGITAL ELECTRONICSOn successful completion of the course the students will be able to:

CO1 Computed the Postulates of Boolean algebra using different techniquesCO2 Understood Designing the Combinational and sequential circuitsCO3 Understood the concept of memories and programmable logic device

Course Name ANALOG ELECTRONICSOn successful completion of the course the students will be able to:

CO1Got knowledge in Design circuits using diodes based on required output and apply suitable biasingcircuits for BJT and FET.

CO2 Acquired the knowledge of inverting, non-inverting amplifier, integrator and differentiatorCO3 Got the ability to design filters and signal generator circuits according to required output.

Course Name DATA STRUCTURESAND OBJECT ORIENTED PROGRAMMING IN C++On successful completion of the course the students will be able to:

CO1 Gain the basic knowledge on Object Oriented Programming.

CO2Develop Applications, and Implement Features of Object Oriented Programming to Solve Real WorldProblems.

CO3Implement various Abstract Data Types to Solve Real Times Problems by using Linear DataStructures.

Course Name LIFE SCIENCES-I LABOn successful completion of the course the students will be able to:

CO1 Understood of how eye tests are conductedCO2 Demonstrated the contents of blood and how to analyze itCO3 Demonstrated an understanding of how audiogram tests are conducted

Course Name ANALOG & DIGITAL ELECTRONICS LABOn successful completion of the course the students will be able to:

CO1 Understood the practical application of various electronic circuits like rectifiers, amplifiers.CO2 Acquired the designing knowledge of linear and non-linear applications of IC 741CO3 Gained knowledge in design of filter circuits, oscillators and wave form generators.

Course Name DATA STRUCTURES AND OBJECT ORIENTED PROGRAMMING IN C++ LABOn successful completion of the course the students will be able to:

CO1 Implement basic and advanced concepts of Object Oriented Programming using C++

CO2Apply Good Programming Design methods for Program Development using Object Oriented Concepts.

CO3 Design and implement C++ programs for manipulating Stacks, Queues, Linked Lists.Semester IV

Course Name PROBABILITY AND RANDOM PROCESSESOn successful completion of the course the students will be able to:

CO1Imbibe the knowledge of basic probability improves the quality of interpretation and decision makingin real time problems of uncertainty.

CO2Learn the concept of two dimensional random variables helps to understand and analyse the statisticalmeasures which describe an outcome of a random experiment.

CO3Understand and characterizing the random variable phenomenon which evolve with respect to time in aprobabilistic approach.

Course Name SIGNALS AND SYSTEMSOn successful completion of the course the students will be able to:

CO1 Categorize the properties and representation of discrete and continuous time signalsCO2 Analyze the continuous time signal using Fourier and Laplace transform.CO3 Determine total response, impulse response and frequency response of LTI-CT systems

Course Name SENSORS AND MEASUREMENTSOn successful completion of the course the students will be able to:

CO1 Described the purpose and methods of measurements

CO2Understood the principle of transduction, classifications and the characteristics of different transducersand study its biomedical applications.

CO3 Studied different types of signal conditioners and analyzers.Course Name MEDICAL PHYSICS


CO1Studied the principles of light, sound and ultrasound and its properties and about the non-ionizingradiation and their effects

CO2Understood various types of spontaneous radioactive emissions and various methods of producingradionuclides.

CO3Understood various types of interaction of charged particles with matter and the effects due tointeraction of gamma radiation with matter and their characteristics

Course Name LIFE SCIENCES - IIOn successful completion of the course the students will be able to:

CO1Demonstrated a qualitative and quantitative understanding of major biomolecules such ascarbohydrates, lipids and proteins.

CO2 Recognized and explain the basic features of chromatography and electrophoresisCO3 Demonstrated an understanding of the fundamental principles microscopes.

Course Name ELECTRICAL MACHINESOn successful completion of the course the students will be able to:

CO1Understood the construction, working, characteristics and applications of DC generators & DC motors,testing of single phase transformers

CO2Understood the theory of structures, operating principle, characteristics, and applications of A.Crotating machines in detail

CO3 Gained the basic knowledge on Special MachinesCourse Name ELECTROMAGNETIC FIELD THEORY

On successful completion of the course the students will be able to:CO1 Understood the coordinate systems and learn mathematical operations related to fields.

CO2Understanding Coulomb’s law and Gauss’s law and applications of these laws in analyzing electrostaticfields.

CO3Understood the properties of materials under the influence of electric field. Deriving Poisson’s andLaplace’s equations and learn general procedures for solving these equations.

Course Name ECONOMICS FOR ENGINEERSOn successful completion of the course the students will be able to:

CO1 Understood the economics and types of demand.CO2 Understood the revenue and measurement of profitCO3 Understood the market failure and goods.

Course Name MECHANICAL TECHNOLOGYOn successful completion of the course the students will be able to:

CO1Students become familiar about the fundamental concept of stress and strain, the relationship betweenboth through the strain-stress elation hook’s law.

CO2Students become familiar about fundamental of the first law second law of thermodynamics and theirapplication to wide range of system.

CO3 Students will be able to understand the fundamental of fluid mechanicsCourse Name BIOSENSORS AND TRANSDUCERS

On successful completion of the course the students will be able to:CO1 Learnt the working principles of biosensors.CO2 Studied the physic-chemical transducers.CO3 Understood the biorecognition systems.

Course Name NETWORK ANALYSISOn successful completion of the course the students will be able to:

CO1 Learned about applying Fourier transforms to analyze electrical networks.CO2 Learned network functions and two-port parameters.CO3 Able to design k and m filters and exposure to synthesis techniques.

Course Name SENSORS & MEASUREMENTS LABORATORYOn successful completion of the course the students will be able to:

CO1 Described the purpose and methods of measurementsCO2 Explained different display and recording devices for various applications.

Semester VCourse Name BIOMEDICAL INSTRUMENTATION


CO1Understood the origin of biopotentials & different types of electrodes used in biopotential recording

CO2Known the different lead configurations used for recording biosignals like ECG, EEG, EMG, ERG &EOG.

CO3 Understood the need for bioamplifiers and different types of bioamplifiers.Course Name BIOMEDICAL INSTRUMENTATION


CO1Understood the origin of biopotentials & different types of electrodes used in biopotential recording


CO3 Understood the need for bioamplifiers and different types of bioamplifiers.Course Name DIGITAL SIGNAL PROCESSING

On successful completion of the course the students will be able to:CO1 Computed FFT of a discrete time signal.CO2 Designed the various FIR filter techniques.CO3 Designed the various IIR filter techniques.

Course Name MICROPROCESSOR AND MICROCONTROLLEROn successful completion of the course the students will be able to:

CO1 Understood the architecture and assembly language programming of microprocessors

CO2Understood the architecture and assembly language programming of microprocessor and peripheralinterfacing mechanism

CO3 Learnt the concept of interrupts.Course Name BIO CONTROL SYSTEMS


CO1Understood system concept and different mathematical techniques applied in analyzing any givensystem.

CO2 Analyzed a given system in time domain and frequency domain.CO3 Understood the techniques of plotting the responses in both domain analysis.

Course Name DIGITAL COMMUNICATIONOn successful completion of the course the students will be able to:

CO1 Understood modulation and demodulation techniques.CO2 Understood various pulse modulation techniques.CO3 Acquired knowledge on different phase shift keying techniques.

Course Name VIRTUAL INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Learn the virtual instrumentation fundamentals.CO2 Familiarize with the VI software and learn programming in VICO3 Understand various programming techniques.

Course Name BIOMEDICAL INSTRUMENTATION LABOn successful completion of the course the students will be able to:

CO1 Recorded the biosignals like ECG, EEG, EMG.CO2 Recorded the various physiological parameters.CO3 Measured nonelectrical parameters using the chemical sensors.

Course Name MICROPROCESSOR AND MICROCONTROLLER LABOn successful completion of the course the students will be able to:

CO1 Developed the code in assembly language programming.CO2 Tested the developed code using 8085, 8086 processors and 8051 controllers.CO3 Demonstrated the interface peripherals with microprocessor and micro controller

Course Name DIGITAL SIGNAL PROCESSING LABOn successful completion of the course the students will be able to:

CO1 Computed FFT and IFFT of a discrete time signal.CO2 Designed and analyzed the various FIR filter techniquesCO3 Designed and analyzed the various IIR filter techniques

Semester VI

Course Name DIAGNOSTIC EQUIPMENTOn successful completion of the course the students will be able to:

CO1 Students will understand the basics of an ECGCO2 Students will gain knowledge on EEG signal and EEG machine.CO3 Students will know the mechanics behind muscle contraction and relaxation

Course Name THERAPEUTIC EQUIPMENTOn successful completion of the course the students will be able to:

CO1 Student will identify the types and uses of diathermy units.CO2 Will know about defibrillator and pacemaker devices

CO3Student would be able to understand the working of physiotherapy and electrotherapy equipment’s

Course Name RADIOLOGICAL EQUIPMENTSOn successful completion of the course the students will be able to:

CO1Will have an in depth idea about radiological equipments, their imaging techniques, appreciate theirusage in the radiology department of hospital

CO2Will be gaining an adequate knowledge about the fundamentals of x-ray imaging and the radiationsafety methods to be employed

CO3 Will know the different types of imaging and their usageCourse Name MEDICAL EMBEDDED SYSTEMS

On successful completion of the course the students will be able to:CO1 Describe the architecture and programming of ARM processor.CO2 Outline the concepts of embedded systemsCO3 Explain the basic concepts of real time Operating system design.

Course Name BIOMATERIALS & ARTIFICIAL ORGANSOn successful completion of the course the students will be able to:

CO1Knowledge about the basics of biomaterials, mechanical properties, wound healing process and bloodcompatibility, properties , characteristics and applications of metallic implants

CO2 Knowledge about the properties, characteristics and applications of polymeric implants

CO3Knowledge about the applications of soft and hard tissue replacements, skin implants and bloodinterfacing implants

Course Name MEDICAL SAFETY & QUALITY ASSURANCEOn successful completion of the course the students will be able to:

CO1 Knowledge about safety devices necessary for health care system can be identifiedCO2 Gain knowledge about how electricity, gas and fire leakage can be reducedCO3 An understanding how accuracy and precision can be obtained by measuring techniques.

Course Name CLINICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Know the role of clinical engineer in the health care industry.CO2 Knowledge about maintenance and running of hospitals was gained.CO3 Understand about healthcare standards and quality policies.

Course Name PHYSIOLOGICAL MODELINGOn successful completion of the course the students will be able to:

CO1 Know the applications of Physiological models.CO2 Can Model dynamically varying physiological systemCO3 Discuss methods and techniques to analyze and synthesis dynamic models

Course Name PHYSIOLOGICAL MODELINGOn successful completion of the course the students will be able to:

CO1 Know the applications of Physiological models.CO2 Can Model dynamically varying physiological systemCO3 Discuss methods and techniques to analyze and synthesis dynamic models

Course Name BIOTELEMETRYOn successful completion of the course the students will be able to:

CO1 Understand basic principle of telemetry.CO2 Understand basic biotelemetry principles and its types.CO3 Gain knowledge about applications of radio pill in healthcare industry.

Course Name BIOSIGNAL PROCESSINGOn successful completion of the course the students will be able to:

CO1 Ability to apply mathematics, science and engineering principlesCO2 Ability to design, analyze and interpret data.CO3 Ability to design a system, component, or process to meet desired needs.

Course Name VLSI DesignOn successful completion of the course the students will be able to:

CO1 Discuss the different design hierarchy of the CMOS circuitsCO2 Determine of the various characteristics of the MOS transistorCO3 Design the inverter and logic gates using the CMOS technology

Course Name DIAGNOSTIC AND THERAPEUTIC LABOn successful completion of the course the students will be able to:

CO1 Students will understand the basic and principle of ultrasound.CO2 Students will know about telemetry and the various bio-telemetric unitsCO3 Student will identify the types and uses of diathermy units.

Course Name EMPLOYABILITY SKILLS LABOn successful completion of the course the students will be able to:

CO1Enhancing the employability skills of students with a special focus on Presentation skills, Groupdiscussion skills and Interview skills

CO2 Improving their soft skills, including report writing, necessary for the workplace situationsCO3 Creating effective PPTs and presenting the visuals effectively

Semester VIICourse Name MEDICAL OPTICS


CO1Get the clear understanding of the principle of light and its applications in the field of medicine.

CO2 Get an in depth knowledge about the optical properties of the tissues.CO3 Study about the different types of lasers used in therapy.

Course Name DIGITAL IMAGE PROCESSINGOn successful completion of the course the students will be able to:

CO1 Learn digital image fundamentals.CO2 Understand the concept in image enhancement techniquesCO3 Study the image restoration and recognition

Course Name BIOMECHANICSOn successful completion of the course the students will be able to:

CO1 Understand the principles of mechanics that is used to analyse human movement.CO2 Study about the fluid mechanic system applied to human bodyCO3 Study the structure and functions of skeletal muscle

Course Name PATTERN RECOGNITION & NEURAL NETWORKSOn successful completion of the course the students will be able to:

CO1 Understand the fundamentals of pattern recognition and its application.CO2 Analyze the supervised and unsupervised algorithms suitable for pattern Classification.CO3 Provide the fundamentals of Neural networks

Course Name MEDICAL INFORMATICSOn successful completion of the course the students will be able to:

CO1 Appreciate the role of Informatics in engineering and medicine.CO2 Understand the importance of Medicine and the InternetCO3 Analyze the concept in Medical Imaging and Clinical Laboratory

Course Name PROFESSIONAL ETHICS AND HUMAN VALUESOn successful completion of the course the students will be able to:

CO1 Apply ethics in societyCO2 Discuss the ethical issues related to engineeringCO3 Realize the responsibilities and rights in the society

Course Name REHABILITATION ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the concept of Rehabilitation & Rehabilitation team role of physiatristCO2 Get knowledge about Orthotic devices in Rehabilitation EngineeringCO3 Gain knowledge about Therapeutic exercise technique.

Course Name ICU & OPERATION THEATRE EQUIPMENTSOn successful completion of the course the students will be able to:

CO1 Study the various ICU equipmentsCO2 Get knowledge about Critical care equipmentCO3 Gain knowledge about operation theatre equipment.

Course Name TOTAL QUALITY MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Learnt the basic concepts of Total Quality ManagementCO2 Understood the principles of Total Quality ManagementCO3 Understood the different TQM tools and techniques

Course Name DIGITAL IMAGE PROCESSING LABOn successful completion of the course the students will be able to:

CO1 Perform filtering operations in the imageCO2 Use transforms and analyzes the characteristics of the image.CO3 Analyze the texture of the image

Course Name HOSPITAL TRAINING LABOn successful completion of the course the students will be able to:

CO1Enable the students to gain practical knowledge about instruments used in hospitals for diagnostic andtherapeutic applications

CO2Will able to gain experience in handling the equipments and learn to correct the errors in theinstruments in hospitals

Course Name MINI PROJECTOn successful completion of the course the students will be able to:

CO1 The student will culminate in gaining of major design experience in the related area of specializationSemester VIII

Course Name HOSPITAL ENGINEERING AND MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Understood the concepts of hospital administration and biomedical waste managementCO2 learnt the concept of leadership grooming and training in hospitalCO3 Known the marketing information system

Course Name NANOTECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Understood a broad view of the nanoparticlesCO2 Learnt the concept of biosynthesis of nanomaterialsCO3 Understood the optical properties and measurement of nanomaterials

Course Name CELL BIOLOGY AND TISSUE ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Known the concept of DNA/RNA in cell biologyCO2 Understood about cell adhesion and migrationCO3 Learnt the concept of cell mechanics and cell motility

Course Name ASSIST DEVICESOn successful completion of the course the students will be able to:

CO1 Learnt various mechanical techniques that will help failing heart.CO2 Understood the functioning of the unit which does the clearance of urea from the blood

CO3Understood the tests to assess the hearing loss and development of electronic devices to compensatefor the loss

Course Name MEMSOn successful completion of the course the students will be able to:

CO1 Learnt various concepts of liquid flow mechanism.

CO2Understood different types of sensors and actuators and their principles of operation at the micro scalelevel.

CO3 Studied about the parallel plate capacitor and inchworm motorCourse Name DISASTER MANAGEMENT & MITIGATION

On successful completion of the course the students will be able to:CO1 Understood the basic concepts of fundamentals of Disaster ManagementCO2 Get the knowledge of environmental DisasterCO3 Analyzed the prediction of earthquake and Tsunami

Course Name ADVANCED MEDICAL INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Known about neuromuscular stimulator and spine fusion stimulator.CO2 Learnt about the concept of evoked potential response.CO3 Gained knowledge about impedance technique

Course Name BRAIN COMPUTER INTERFACE AND APPLICATIONOn successful completion of the course the students will be able to:

CO1 Understood about invasive and noninvasive of brain computer interfaceCO2 Studied the various types of BCIsCO3 Learnt about PCA and ICA used in BCI

Course Name MEDICAL ROBOTICSOn successful completion of the course the students will be able to:

CO1 Understood the basics automation in robotsCO2 Designed basic Robotics system and formulate KinematicsCO3 Learnt about Template matching and Camera calibration

Course Name WEARABLE SYSTEMSOn successful completion of the course the students will be able to:

CO1 Understood the Wearable motion SensorsCO2 Gained the knowledge about light weight signal processingCO3 Learnt the concept of solar cell and thermopile

Course Name BIOMETRICSOn successful completion of the course the students will be able to:

CO1 Understood the basics of biometric systemsCO2 Understood the concept of finger print classification and matchingCO3 Learnt about the Automatic face processing and Hand geometry

Course Name PROJECT WORKOn successful completion of the course the students will be able to:

CO1On Completion of the project work students will be in a position to take up any challenging practicalproblems and find solution by formulating proper methodology

Program Name B. Tech (BIOTECHNOLOGY)Semester I

Course Name TECHNICAL ENGLISH-IOn successful completion of the course the students will be able to:

CO1The ability to comprehend facets of grammar, wide range of vocabulary so as to be equipped to presentopinions and ideas in a convincing manner


CO3 The ability to interact, translate and delegate informationCourse Name ENGINEERING MATHEMATICS-I

On successful completion of the course the students will be able to:CO1 Developing the knowledge of basic linear algebraic concepts

CO2Determining the solutions of ordinary differential equations by various methods which have anapplication in their core subjects

CO3 Acquiring the basic knowledge of ordinary and partial differential calculusCourse Name ENGINEERING PHYSICS

On successful completion of the course the students will be able to:CO1 Understand the types of matter and their physical properties

CO2Gain fundamental knowledge about the sound waves in the field of industrial production, architecture,medicine and more

CO3 Understand the properties of light waves which can be used in communication systemsCourse Name ENGINEERING CHEMISTRY

On successful completion of the course the students will be able to:CO1 Understand the concepts of electrochemistry and Energy storage devicesCO2 Understand the chemistry of CorrosionCO3 Apply the basic concepts of thermodynamics for engineering stream



CO2 The student will be able to do orthographic projection of lines and plane surfaces

CO3 The student will be able to draw projections of solids, section of solid and development of surfacesCourse Name FUNDAMENTALS OF COMPUTING AND C PROGRAMMING

On successful completion of the course the students will be able to:CO1 Able to acquire knowledge in Computer, Internet basics and problem solving methodsCO2 Able to understand and implement the programs in C using arrays, functions and structuresCO3 Able to design and develop applications using pointer concepts and file handling mechanism


CO1 Carry out the volumetric experiments and improve the analytical skills

CO2Understand the maintenance and usage of analytical instruments and thereby develop their skills in thefield of engineering

CO3 Understand the principle and handling of electrochemical instruments and SpectrophotometerCourse Name FUNDAMENTALS OF COMPUTING AND C PROGRAMING LAB

On successful completion of the course the students will be able to:CO1 Able to efficiently apply office automation tools for professional requirementsCO2 Able to solve simple mathematical & logical problems using C programsCO3 Able to build program in C for any computing problems

Semester IICourse Name TECHNICAL ENGLISH-II



CO3 The ability to interact, translate and delegate informationCourse Name ENGINEERING MATHEMATICS-II


CO1Determining the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields

CO2 Learning the basic concepts of analytic functions and transformations of complex functionsCO3 Mastering the integration in complex domain


CO1 Understand the types of matter and their physical properties

CO2Gain fundamental knowledge about the sound waves in the field of industrial production, architecture,medicine and more

CO3 Understand the properties of light waves which can be used in communication systemsCourse Name APPLIED CHEMISTRY


CO1

The knowledge gained on Polymer chemistry, Photochemistry & Spectroscopy, Engineering materials,fuels and adsorption will facilitate better understanding of engineering processes and applications forfurther learning


CO1Ability to explain the differential principles applies to solve engineering problems dealing with force,displacement, velocity and acceleration

CO2 Ability to solve the Moment of inertia for different 2-D plane figuresCO3 Ability to analyse the forces in any structures

Course Name BIOCHEMISTRYOn successful completion of the course the students will be able to:

CO1 Basic principles of chemical bonding is known.

CO2Acquire knowledge related to functions and interrelationships of biomolecules in clinical research andindustry

CO3 Idea about the consequences of interpreting and solving clinical problemsCourse Name ENGINEERING PHYSICS LAB


CO1 Verify the theoretical ideas and concepts covered in lecture by completing a host of experiments

CO2Develop procedures and observation skills as data is taken and gain fundamental understanding ofsimple and complex apparatus used in the experiment

CO3 Acquire and interpret experimental data to examine the physical lawCourse Name ENGINEERING PRACTICES LAB



CO2 An ability to prepare simple wooden joints using wood working toolCO3 An ability to prepare simple lap, butt and tee joints using arc welding equipments

Course Name BIOCHEMISTRY LABOn successful completion of the course the students will be able to:

CO1 Learning the principles behind the qualitative estimation of biomoleculesCO2 Understanding the principles behind quantitative estimation of biomoleculesCO3 Understanding the analysis of the same in the body fluids professional career

Semester IIICourse Name ENGINEERING MATHEMATICS III

On successful completion of the course the students will be able to:CO1 Gaining the concept of analysis of linear discrete system using Z-transform approach

CO2Applying Laplace transform techniques to solve ordinary differential equations which have anapplication in many engineering fields

CO3Describing an oscillating function which appear in a variety of physical problems by Fourier serieshelps them to understand its basic nature deeply

Course Name ENVIRONMENTAL SCIENCE AND SUSTAINABILITYOn successful completion of the course the students will be able to:

CO1 To understand & appropriate the structure of ecosystem and its impact on environmentCO2 To understand the various natural resources and boidiversityCO3 To recognize the environmental problems caused due to pollution.

Course Name CELL BIOLOGYOn successful completion of the course the students will be able to:

CO1 To develop integral knowledge on cell structure, molecular organisation and function of cell organellesCO2 To learn the cell is the basic unit of life in the entire living world

CO3To Understand the basic knowledge on cell structure and function as well as on the molecular basis ofchromatin organization

Course Name MICROBIOLOGY

On successful completion of the course the students will be able to:CO1 To introduced principles of microbiologyCO2 To understand on structure and biochemical aspects of various microbesCO3 To solve the problems in microbial infection and their control

Course Name INSTRUMENTAL METHODS OF ANALYSISOn successful completion of the course the students will be able to:

CO1 Understanding spectroscopyCO2 Knowledge on separation techniques used for biological productsCO3 Knowledge on different chromatographic methods for separation of biological products

Course Name CELL BIOLOGY LABOn successful completion of the course the students will be able to:

CO1 To learn the basic skills in light microscopy, cell fractionation, and spectroscopy

CO2To be able to perform light microscopy techniques, to isolate plastids, nucleus or other organelles andcell division

CO3 To be able to identify the various stages of mitosisCourse Name MICROBIOLOGY LAB

On successful completion of the course the students will be able to:CO1 To learn the techniques of culture preparation for isolation and preservation of bacteriaCO2 To acquire knowledge on sensitivity of antibioticsCO3 To understand on effect of physical factors on growth bacteria

Course Name INSTRUMENTAL METHODS OF ANALYSIS LABOn successful completion of the course the students will be able to:

CO1 Visualize and interpret the theory of spectroscopic methodsCO2 Acquire experience in the purification by performing chromatographyCO3 Validate and analysis using spectrometric and microscopic techniques

Semester IVCourse Name PROBABILITY AND STATISTICS

On successful completion of the course the students will be able to:CO1 Understanding the real time application of probability distributionsCO2 Drawing inference & decision making through hypothesis testing

Course Name MOLECULAR BIOLOGYOn successful completion of the course the students will be able to:

CO1 The background and scope of molecular biology, Genetics and gene therapy

CO2 The information gained will help the students to understand the beneficial role of cell molecular level

CO3After successful completion of this subject the students will get an overall view about genetic makeupof organisms and can take up a career in research

Course Name STOICHIOMETRIC AND PROCESS CALCULATIONSOn successful completion of the course the students will be able to:

CO1 Knowledge of mathematics, science, and engineeringCO2 Design and conduct experiments, as well as to analyze and interpret data

CO3

Design a system, component, or process to meet desired needs within realistic constraints such aseconomic, environmental, social, political, ethical, health and safety, manufacturability, andsustainability

Course Name FUNDEMENTALS OF UNIT OPERATIONSOn successful completion of the course the students will be able to:

CO1To be familiar about dimensional analysis and empirical methods governing thetransport of momentum(fluid flow) in chemical engineering systems

CO2Ability to improve the knowledge in techniques of agitation, mixing of liquids, filtration operations andsedimentation separation

CO3 To understand modes of heat transferring techniques during extraction, distillation, evaporationCourse Name ENZYME TECHNOLOGY


CO1Knowledge on enzyme and enzyme reactions will be key step towards various concepts inbiotechnology

CO2 Ideas on processing, production and purification of enzymes at an industrial scaleCO3 Theoretical and practical aspects of kinetics will provide the importance towards the results

Course Name MOLECULAR BIOLOGY LABOn successful completion of the course the students will be able to:

CO1 Demonstrate knowledge and understanding techniques in molecular biology

CO2Use genetic and biotechnological techniques to manipulate genetic materials and develops new andimproved living organisms

CO3 Present advanced knowledge in the specialized fields of molecular and geneticsCourse Name ENZYME TECHNOLOGY LAB

On successful completion of the course the students will be able to:CO1 Ability to apply the skill of unit process of chemical engineering and biotechnology

CO2 Ability to analyse the principles of chemical engineering and its application on biological perspectivesCO3 Design and working principles of fluid moving machinery and transport

Semester VCourse Name IMMUNOLOGY

On successful completion of the course the students will be able to:CO1 Awareness of immune system structure and function

CO2Awareness of cellular and molecular aspects of lymphocyte activation, homeostasis differentiation, andmemory

CO3 Awareness of tumour allergy and hypersensitivity reactionsCourse Name GENETIC ENGINEERING

On successful completion of the course the students will be able to:CO1 Understand the basics of biotechnology

CO2 Understand the value of and the processes involved with the polymerase chain reaction (PCR).CO3 Understand the concept of recombinant DNA technology or genetic engineering

Course Name BIOPROCESS ENGINEERING IOn successful completion of the course the students will be able to:

CO1Develop skills of the students in the area of bio process technology with emphasis an bioprocessprinciples

CO2 Discuss and distinguish the medium requirements and optimization method

CO3Learn about fermentation processes, metabolic stoichiometry, energetics, kinetics of microbial growthetc

Course Name FUNDAMENTALS OF MASS TRANSFEROn successful completion of the course the students will be able to:

CO1define the basic principles of mass transfer operations and the measurement of diffusivity, mass transfercoefficient

CO2understand the importance of mass transfer phenomena in the design of process equipment indistillation operations

CO3 understand the HETP, NTU and HTU concepts of various gas absorption packed tower columnsCourse Name CHEMICAL THERMODYNAMICS & BIOTHERMODYNAMICS

On successful completion of the course the students will be able to:CO1 Knowledge on ideal and non-ideal behaviour in thermodynamics on properties of fluidsCO2 Knowledge on solutions thermodynamics to determine the properties in the processesCO3 Description of properties criteria in order to maintain the phase change coexist in equilibrium

Course Name IMMUNOLOGY LABOn successful completion of the course the students will be able to:

CO1 Awareness of basic and state-of-the-art experimental methods and technologies

CO2Awareness to develop an ability to summarize, integrate and organize information and relate it todisease outcomes

CO3Awareness to evaluate the potential for current research and new discoveries to improve ourunderstanding of immunology and its relevance to human health and to our society

Course Name GENETIC ENGINEERING LABOn successful completion of the course the students will be able to:

CO1 An ability to design and conduct experiments, as well as to analyze and interpret dataCO2 Apply of genetic engineering techniques in basic and applied experimental biology

CO3 Develop proficiency in designing and conducting experiments involving genetic manipulationCourse Name BIOPROCESS ENGINEERING LAB I

On successful completion of the course the students will be able to:CO1 Knowledge on preparation of medium and sterilization in upstream processesCO2 Knowledge on optimization of cell growthCO3 Exposure to upstream processes and preparation before the fermentation

Semester VICourse Name BIOINFORMATICS

On successful completion of the course the students will be able to:CO1 Develop bioinformatics tools with programming skillsCO2 Apply computational based solutions for biological perspectives

Course Name CHEMICAL REACTION ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Write the rate equation for any type of chemical reaction

CO2Relate and calculate the conversions, concentrations and rates in a reaction and identify, formulate andsolve chemical engineering problems

CO3 Design reactors for heterogeneous reactions and optimize operating conditionsCourse Name BIOPROCESS ENGINEERING-II

On successful completion of the course the students will be able to:CO1 Analyze various operational modes of bioreactor systemsCO2 Capability to design bioreactor system for various industrial applicationsCO3 Understand and modeling different bioreactor systems with advanced modeling concepts

Course Name HEALTH & PHARMACEUTICAL BIOTECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Drugs, drugs action, drug metabolismCO2 Various dosage forms of BiopharmaceuticalsCO3 The recent evolution in pharmaceutical biotechnology

Course Name PLANT BIOTECHNOLOGYOn successful completion of the course the students will be able to:

CO1acquaint with principles, technical requirement, scientific and commercial applications in PlantBiotechnology

CO2support methodologies in plant tissue/cell culture to plant improvement, as well as DNA handling withPCR-based detection diagnostic tools

CO3

become motivated to set goals towards pursuing graduate school and higher level positions, such aslab manager and key scientist in plant biotechnological research institutes and industries

Course Name BIOPROCESS ENGINEERING LABORATORY-IIOn successful completion of the course the students will be able to:

CO1 Analyze various operational modes of bioreactor systemsCO2 Capability to handle bioreactor system for various industrial applicationsCO3 Ability to investigate,design and conduct experiments on bioprocess engineering problems

Course Name PLANT BIOTECHNOLOGY LABORATORYOn successful completion of the course the students will be able to:

CO1 Working knowledge of laboratory techniques used in plant biotechnologyCO2 A capacity to undertake research in plant biotechnology

CO3Understanding of the theoretical background knowledge in plant sciences needed for an understandingof plant biotechnology

Course Name TECHNICAL SEMINAROn successful completion of the course the students will be able to:

CO1 Analyze various techniques in BiotechnologyCO2 Capability to handle various Instruments in he field of Biotechnology

Semester VIICourse Name ANIMAL BIOTECHNOLOGY

On successful completion of the course the students will be able to:CO1 Understand the animal cell culture, animal diseases and its diagnosisCO2 Gain the knowledge of therapy of animal infectionCO3 Know the concepts of micro manipulation technology and transgenic animal technology

Course Name DOWNSTREAM PROCESSINGOn successful completion of the course the students will be able to:

CO1 Understand the requirements of successful operations of downstream processing

CO2Describe the process of downstream equipments and explain the techniques in multifactorialmanufacturing

CO3 Ability to understood the knowledge in finishing operation in DSPCourse Name CANCER BIOLOGY

On successful completion of the course the students will be able to:CO1 The students after completing this course would be aware of cancer and causes of cancerCO2 The students would be aware of cancer detection techniquesCO3 The students would be aware of identification and detection of oncogene

Course Name DISASTER MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Differentiate the types of disasters, causes and their impact on environment and societyCO2 Assess vulnerability and various methods of risk reduction measures as well as mitigationCO3 Draw the hazard and vulnerability profile of India, Scenarios in the Indian context

Course Name DOWNSTREAM PROCESSING LABOn successful completion of the course the students will be able to:

CO1Acquired knowledge for the separation of whole cells and other insoluble ingradients from the culturebroth

CO2Learned various techniques like extraction, precipitation, membrane separation for concentratingbiological products

CO3Learned the basic principles and techniques of chromatography to purify the biological products andformulate the products for different end uses

Course Name EMPLOYABILITY SKILLS LABOn successful completion of the course the students will be able to:

CO1 Comprehend the various strategies of listening and its significanceCO2 Articulate their views clearly and concisely with self-confidence and persuasivenessCO3 Communicate the corporate and social requirements in an impressive written mode

Course Name ANALYTICAL TECHNIQUES IN BIOTECHNOLOGY LABOn successful completion of the course the students will be able to:

CO1 Knowledge on practical skills in analytical techniques and instrumentation of biotechnologyCO2 Ability to achieve analytical skills to do projectCO3 Learn various separation techniques involved in biotechnology products recovery

Semester VIIICourse Name BIOETHICS AND IPR


CO1 Touches on fundamental values, such as human dignity and the genetic integrity of humanityCO2 Serve basic human needs such as human health, food and a safe environmentCO3 Raise human rights issues such as access to health and benefits from scientific progress

Course Name TISSUE ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the concept of tissue engineering application for regenerative medicin

CO2 Process carried out for tissue engineering applicationCO3 Ability to know the techniques used for tissue engineering

Course Name DIGITAL HEALTH CAREOn successful completion of the course the students will be able to:

CO1 Knowledge about the advances in healthcare systemCO2 Analyze the various modes of communication system in healthcareCO3 Familiarize in the healthcare ethi

Course Name MOLECULAR PATHOGENESISOn successful completion of the course the students will be able to:

CO1 Knowledge Of Different Disease- Host Interactions Mechanisms In OrganismsCO2 Concept About Modern Approaches To Control PathogensCO3 Knowledge About Different Molecular-Molecular Pathogen Interaction

Course Name BIOPROCESS ECONOMICS AND PLANT DESIGNOn successful completion of the course the students will be able to:

CO1 Demonstration of the theoretical concepts of bio-reaction and plant designCO2 Understand how it applies to energy conversionCO3 Descriptions of criteria when two phases coexist in equilibrium calculations of microbial gro

Course Name STEM CELLS IN HEALTH CAREOn successful completion of the course the students will be able to:

CO1 Knowledge about various stem cellsCO2 Knowledge of animal stem cell derived and its productCO3 Knowledge of Potential Uses Of Stem Cells in various fields

Course Name PRINCIPLES OF MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Discuss and describe the elements of effective managemenCO2 Apply the planning, organizing and control processes

CO3Describe various theories related to the development of leadership skills, motivation techniques, teamwork and effective communication

Course Name BIOCHIP TECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Understand and evaluate different pharmaceutical parametersCO2 Acquire knowledge on therapeutic and diagnostic fieldsCO3 Demonstrate projects in microarray diagnosis

Course Name AGRICULTURAL BIOTECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Knowledge Of Biotechnology In Agriculture FieldCO2 Concept of different Techniques Of Organic FarmingCO3 Information about to Increase The Soil Fertility Using Biological Available Materials

Course Name MEDICAL CODINGOn successful completion of the course the students will be able to:

CO1 Acquire knowledge about human anatomy & physiologyCO2 Familiarize in the software usageCO3 Acquire knowledge about E&M Code Practice

Course Name COMPUTATIONAL BIOLOGYOn successful completion of the course the students will be able to:

CO1 Understand and utilize the various pathways and cyclesCO2 Design an experiment with step-by-step instructions to address a research problemCO3 Design an experiment with step-by-step instructions to address optimality in biolog

Program Name B. Tech (CHEMICAL ENGINEERING)Semester I

Course Name Technical English - IOn successful completion of the course the students will be able to:

CO1 The ability to strengthen technical writing and speaking




Course Name Engineering Mathematics IOn successful completion of the course the students will be able to:

CO1 Developing the knowledge of basic linear algebraic concepts.CO2 Understanding the 3- Dimensional analytical geometrical concepts.CO3 Acquiring the basic knowledge of total and partial differential calculus

Course Name Engineering PhysicsOn successful completion of the course the students will be able to:

CO1 Understand the types of mater and their physical propertiesCO2 Gain fundamental knowledge about the sound waves in the field of industrial production,CO3 Verify the theoretical ideas and concepts covered in lecture

Course Name Engineering ChemistryOn successful completion of the course the students will be able to:

CO1 Knowledge in various water treatment methodsCO2 Understand the construction and working principles of ElectrochemistryCO3 To have knowledge in construction of Batteries.



CO2 The student will be able to do orthographic projection of lines and plane surfaces

CO3The student will be able to draw projections of solids, section of solid and development of surfaces

Course Name FUNDAMENTALS OF COMPUTING AND C PROGRAMMINGOn successful completion of the course the students will be able to:

CO1Able to understand the fundamental concepts of computer systems and internet terminologies and itsservices

CO2Able to understand the programming concepts in C and develop program solving skills by preparingalgorithms, flowcharts

CO3 Solve simple mathematical & Logical ProblemsCourse Name ENGINEERING CHEMISTRY LABORATORY

On successful completion of the course the students will be able to:CO1 Carry out the volumetric experiments and improve the analytical skills


CO3Understand the principle and handling of electrochemical instruments and Spectrophotometer

Course Name COMPUTER PRACTICE LABORATORYOn successful completion of the course the students will be able to:

CO1Efficiently apply MS-Word and MS-Excel for creating document & spreadsheets for variousapplications

CO2 Design presentation using MS-PowerPoint with animation effectsCO3 Write and compile programs using C- Language

Course Name LANGUAGE LABORATORYOn successful completion of the course the students will be able to:

CO1 Able to strengthen technical speakingCO2 Able to interpret information into graphical mediumCO3 Able to communicate professionally

Semester IICourse Name TECHNICAL ENGLISH II




CO3 The ability to interact, translate and delegate information,Course Name ENGINEERING MATHEMATICS


CO1Determining the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields

CO2 Learning the basic concepts of analytic functions and transformations of complex functions.CO3 Mastering the integration in complex domain.


CO1Understand the concepts of classical and quantum theories for electron behaviour in conductors

CO2 Learn semiconductor, superconductor, dielectric materialsCO3 Understand how materials are used in the engineering field


CO1 The knowledge gained on Polymer chemistryCO2 The knowledge gained on Photochemistry & SpectroscopyCO3 Understand adsorption process


CO1Ability to explain the differential principles applies to solve engineering problems dealing with force,displacement, velocity and acceleration.

CO2 Ability to solve the Moment of inertia for different 2-D plane figures.CO3 Ability to analyse the forces in any structures.

Course Name INTRODUCTION TO CHEMICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the concepts of Civil Engineering & Building components.CO2 Address the importance and standards of transportation systemCO3 Understand the requirement in public health engineering & water resources systems.

Course Name ENGINEERING PHYSICS LABORATORYOn successful completion of the course the students will be able to:

CO1Verify the theoretical ideas and concepts covered in lecture by completing a host of experiments

CO2Develop procedures and observation skills as data is taken and gain fundamental understanding ofsimple and complex apparatus used in the experiment

CO3 Acquire and interpret experimental data to examine the physical law.Course Name ENGINEERING PRACTICE LABORATORY




Course Name CAD AND MODELLING LABORATORYOn successful completion of the course the students will be able to:

CO1 Gain practical experience in handling 2-D and 3-D drafting, modelling softwareCO2 Understand the concept of G and M codes and manual programmingCO3 Expose students to various CNC machines and modern control systems.

Semester IIICourse Name Engineering Mathematics

On successful completion of the course the students will be able to:CO1 Gain the concept of analysis of linear discrete system using Z-transform approach.

CO2Apply Laplace transform techniques to solve ordinary differential equations which have an applicationin many engineering fields.

CO3Describe an oscillating function which appears in a variety of physical problems by Fourier series helpsthem to understand its basic nature deeply.

Course Name Environmental Science & SustainabilityOn successful completion of the course the students will be able to:

CO1 Understand & appropriate the structure of ecosystem and its impact on environmentCO2 Understand the various natural resources and biodiversityCO3 Understand different types of pollution

Course Name Organic ChemistryOn successful completion of the course the students will be able to:

CO1 Learn and understand the basic concepts in bondingCO2 Understand organic reactions mechanism and rearrangementsCO3 Understand synthesis of different type of compounds and.

Course Name Chemical Process CalculationsOn successful completion of the course the students will be able to:

CO1 To become familiar with different unit systems and conversions

CO2

To understand the concepts of Stoichiometric calculations, different ways of expression ofcomposition, vapour pressure and parameters affecting the vapour pressure and behaviour of idealgases

CO3To understand the concept of material balance & energy balance calculations and different techniquesto solve the problems.

Course Name Principles of Electrical and Electronics EngineeringOn successful completion of the course the students will be able to:

CO1 Acquire good understanding of basics of electrical circuits

CO2Understand the working principles, performance, control and applications of electromechanical energyconversion systems.

CO3 Gain knowledge on construction and characteristics of various devices.Course Name Organic Chemistry Laboratory

On successful completion of the course the students will be able to:CO1 Analyze of nature of organic compounds.CO2 Characterize the various functional groupsCO3 Analyze various organic synthetic compounds

Course Name Technical Analysis LaboratoryOn successful completion of the course the students will be able to:

CO1 Analyze experimentally the various properties of oils, soaps and cementCO2 Analyze and evaluate various properties of water by different methodsCO3 Analyze and evaluate different properties of various fuels

Course Name Electrical Engineering LaboratoryOn successful completion of the course the students will be able to:

CO1 Analyze the characteristics of DC generatorsCO2 Analyze and test different DC motorsCO3 Test and analyze the different AC motors & transformers

Course Name Green Chemistry and EngineeringOn successful completion of the course the students will be able to:

CO1 Familiarize the 12 principles of green chemistry.CO2 Familiarize with synthetic design.CO3 Understand the applications of green solvents.

Course Name Material TechnologyOn successful completion of the course the students will be able to:

CO1To gain knowledge on the nature of materials, its properties, and the use of materials in engineering

CO2 To acquire an understanding about metallurgy and phase equilibrium

CO3To understand the important aspects of the chemistry of ferrous metal and non ferrous metals

Semester IVCourse Name Numerical Methods

On successful completion of the course the students will be able to:CO1 Distinguish different iteration methods and apply themCO2 Apply different interpolation and approximation methodsCO3 Apply different interpolation and approximation methods

Course Name Physical ChemistryOn successful completion of the course the students will be able to:

CO1 Understand the thermo chemical reactions and applications of it.

CO2Understand Distribution law and can determine Equilibrium Constant from Partition Coefficient

CO3 Understand types, classification and applications of colloids.Course Name Instrumental Methods of Analysis


CO1Understand the principle behind UV-VIS spectroscopy and can perform calculations to determineconcentrations.

CO2 Understand the theory behind IR spectroscopy and applications of it.CO3 Understand the theory and applications of AAS, TGA and DTA.

Course Name Chemical Engineering Fluid MechanicsOn successful completion of the course the students will be able to:

CO1Students can get the knowledge about the unit and dimensions and also about the role of pressure in thefluid flow and pressure measurement.

CO2Students can get the knowledge about the types of fluid flow and also on the discharge measurement byusing different equipment at different conditions.

CO3Students would have knowledge on Fluid properties, their characteristics while static and during flowthrough ducts, pipes and porous medium.

Course Name Mechanical OperationsOn successful completion of the course the students will be able to:

CO1 Decide the usage of equipment for industrial application with respect to size reduction.CO2 Decide the necessary equipment to screen different particlesCO3 Apply the knowledge of different blends and mixing techniques to liquids and solids.

Course Name Physical Chemistry LaboratoryOn successful completion of the course the students will be able to:

CO1 Understand the principles, properties and characteristics of solvents and mixturesCO2 Determine the molecular weight of solute using different methodsCO3 Determine the Critical Micelle Concentration (CMC) of a metal salt

Course Name Mechanical Operations LabOn successful completion of the course the students will be able to:

CO1Students will be able to determine work index, average particle size through experiments by crushers,ball mill, rod mill and conducting size analysis by various size sieves.

CO2Students will be able to design size separation equipments such as cycloneseparator, pressure andvacuum filters

CO3 Students will be able to determine thickener area from batch sedimentation experimentCourse Name Renewable Energy Technology

On successful completion of the course the students will be able to:CO1 Recognize the renewable energy sources with their situation and exploration in detail.

CO2Understand the different types of energy conversion systems in wind and geothermal energy.

CO3 Understand the various energy conversion systems for solar and ocean energy harnessing.Semester V

Course Name Chemical Engineering ThermodynamicsOn successful completion of the course the students will be able to:

CO1

Outline the terminology associated with engineering thermodynamics, apply the concepts of heat, workand energy conversion to calculate heat and work quantities for industrial processes and predict theproperties of ideal and real mixtures based on thermodynamic principles.production and refrigerationprocesses. The study further provides a comprehensive exposition to theory and application of solutionthermodynamics

CO2Apply the basic concepts of first and second laws of thermodynamics for the design and analyze of theopen and closed system in chemical process plants

CO3Predict the changes in the properties of real fluids undergoing changes in process plant equipments.

Course Name Chemical Process IndustriesOn successful completion of the course the students will be able to:

CO1 To know the process methodology regarding chlorine and sulphur.

CO2Apply the basic concepts of first and second laws of thermodynamics for the design and analyze of theopen and closed system in chemical process plants

CO3 To study the basic ideas of fertilizer and nitrogen and phosphorous industries.Course Name Heat Transfer

On successful completion of the course the students will be able to:CO1 Distinguish different modes of heat transferCO2 Find the rate of heat transfer with and without change of phase

CO3Evaluate film coefficients in convection under different situations (forced, natural convection, Boilingand Condensation Heat)

Course Name Mass transfer – IOn successful completion of the course the students will be able to:

CO1 Write rate equations for mass transfer operationsCO2 Apply the diffusion principles in mass transfer calculations

CO3Apply the concepts of inter phase mass transfer in gas- liquid, liquid-liquid and solid – liquid masstransfer operations

Course Name Heat Transfer LaboratoryOn successful completion of the course the students will be able to:

CO1Determine the thermal conductivity for various conductors and Stefan Boltzmann constants throughexperiments.

CO2Use experimental data to evaluate heat transfer co-efficient and evaluate performance of different typesof equipments including heat exchangers, condensers.

CO3Determine the heat transfer co-efficient under natural and forced convection mode of heat transfer.

Course Name Chemical Engineering Computational LaboratoryOn successful completion of the course the students will be able to:

CO1 Apply the basic principles of mass transfer operations

CO2Perform experiments and determine diffusivity, mass transfer rate, drying rate, efficiency inleaching/extraction operations and mass transfer coefficient of a given system using fundamentalprinciples

CO3 Identify a mass transfer operation for the separation of a mixture into its pure componentsCourse Name Employability Skills Lab

On successful completion of the course the students will be able to:CO1 Comprehend the various strategies of listening and its significance.CO2 Articulate their views clearly and concisely with self-confidence and persuasiveness.

CO3Understand the prevailing practices of testing in the recruitment process by the corporates and theinstitutional selection processes.

Course Name Process InstrumentationOn successful completion of the course the students will be able to:

CO1 Understand the working mechanism of important instruments used in process industry.CO2 Understand the basic principle and operation of various temperature measuring Instruments.CO3 Identify instruments used for measuring various ranges of pressure measurement.

Semester VICourse Name Mass Transfer – II


CO1Apply mass transfer and separation principles in several unit operations like absorption, distillation.

CO2 Determine the number of theoretical stages in a stage-wise mass transfer processesCO3 Calculate height requirements of continuous separation columns.

Course Name Chemical Reaction EngineeringOn successful completion of the course the students will be able to:

CO1Apply the basic principles of reaction kinetics, reactor design and non ideality in reactors in processindustries

CO2 Choose a suitable single or multiple reactor system for a given processCO3 Design a reactor for a given process in industries

Course Name Process Dynamics and ControlOn successful completion of the course the students will be able to:

CO1 Understand the prerequisites of control strategies.CO2 Design of process control systems.CO3 Suggest the suitable controllers for different chemical process.

Course Name Chemical Process Plant SafetyOn successful completion of the course the students will be able to:

CO1 Understand various safety principles.CO2 Analyze HazardsCO3 Identify various accidents

Course Name Analytical Instrumentation SafetyOn successful completion of the course the students will be able to:

CO1Ability to understand and analyze Instrumentation systems and their applications to various industries

CO2

Understanding the various techniques and methods of analysis which occur in the various regions ofthe spectrum Identify instruments used for measuring various ranges of pressure measurement.

CO3 Identify instruments used for analyzing dissolved components.Course Name Process Control Laboratory

On successful completion of the course the students will be able to:CO1 Understands the importance of dynamics of process in controller designCO2 Students will be able to design of controller and evaluation of its performance

CO3Students will be able to use MATLAB Simu-link software in dynamic study of processes, and design ofcontrollers

Course Name Mass Transfer LaboratoryOn successful completion of the course the students will be able to:

CO1 Students will be able to apply the basic principles of mass transfer operations

CO2

Students will be able to perform experiments and to Determine diffusivity, mass transfer rate, dryingrate, efficiency in leaching / extraction and mass transfer coefficient of a given system usingfundamental principles

CO3Students will be able to choose a mass transfer operation for separation of a mixture into purecomponents

Course Name Chemical Process Equipment Design & Drawing LabOn successful completion of the course the students will be able to:

CO1 Students understands design and drawing considerations of process equipmentCO2 Students will be able to perform required calculations for the process equipment designCO3 Students will be able to design and draw process equipments

Course Name Energy Conservation and Management in Process IndustriesOn successful completion of the course the students will be able to:

CO1 Analyze differentiate the types of energy and its conservation.CO2 Assess various environmental issues and impact.CO3 Understand the importance of energy conservation.

Course Name Industrial ManagementOn successful completion of the course the students will be able to:

CO1Understand the function of leadership and organizing culture, importance of quality control in processand planning operations.

CO2Understand the necessity of planning process and objectives, decision making processes under differentconditions.

CO3Understand the nature and purpose of organization and importance of staffing selection recruitment.

Course Name Pulp and Paper TechnologyOn successful completion of the course the students will be able to:

CO1 Understand the scenario of Indian pulp and paper industry.CO2 Acquire knowledge of pulping processes and required raw materials.CO3 Learn different types of processes for paper manufacturing and testing of paper

Course Name Electrochemical EngineeringOn successful completion of the course the students will be able to:

CO1 Understand the basic concepts involved in electrochemical processesCO2 Learn different types of electrodes used for processesCO3 Apply the concepts of potential theory for design of advanced electrodes

Course Name Disaster mitigation and ManagementOn successful completion of the course the students will be able to:

CO1Analyze differentiate the types of disasters, causes and their impact on environment and society.

CO2 Assess vulnerability and various methods of risk reduction measures as well as mitigation.CO3 Draw the hazard and vulnerability profile of India, scenarios in the Indian context.

Course Name Food Science and TechnologyOn successful completion of the course the students will be able to:

CO1Understand the problems related to food and food industries by implementing properties related tofood.

CO2Apply the basic skills related to heat preservation, cold preservation with processing and variousmethods followed for that in food processing industries.

CO3Apply the knowledge in aspects of food microbiology, production and utilization of various foodproducts and the processing.

Semester VIICourse Name Process Modeling and Simulation


CO1Able to apply the fundamentals of modeling and their applications to transport/energy equations,chemical and phase equilibria kinetics

CO2Able to formulate the mathematical models of stirred tank heaters, heat exchangers, evaporators,reactors and distillation column.

CO3 Able to analyze the simulation principles of steady state processesCourse Name Chemical Engineering Plant Design and Economics


CO1Able to calculate various costs involved in a process industry and Compute break even period for rateof return. Calculate the taxes by different methods

CO2Able to estimate profitability of a company, how to work with balance sheets, understand relationshipbetween demand & supply

CO3Acquire the concept of management and also personnel management, labour management relations.

Course Name Transport PhenomeOn successful completion of the course the students will be able to:

CO1Able to develop mathematical models of momentum, heat and mass transport to determine respectivefluxes and velocity, temperature and concentration distribution.

CO2Able to apply equations of change to determine the velocity, temperature and concentration profile ofcomplex transport processes

CO3Able to understand the turbulence and boundary layer concept and analogy between transportprocesses.

Course Name Chemical Reaction Engineering Lab

On successful completion of the course the students will be able to:CO1 Able to find rate constant in different types of reactors

CO2Able to carry out kinetic studies in different reactors and to calculate conversion, rate constant andeffect of temperature

CO3 Able to analyze the performance of PFR, CSTR and RTD in reactorsCourse Name Chemical Process Equipment Design & Drawing Lab – II


CO1Knowledge of basics of process equipment design and important parameters of equipment design anddrawing.

CO2 Ability to design and draw heat exchange equipment and mass transfer equipmentCO3 Ability to design and draw various parts of vessels (e.g. heads)

Course Name Technical Seminar & Report WritingOn successful completion of the course the students will be able to:

CO1Ability to study and present a seminar on a topic of current relevance in chemical engineering or alliedareas.

CO2Able to do a detailed study on the chosen topic under the supervision of a faculty member, by referringpapers published in reputed journals and conferences to prepare one own report.

CO3Able to apply knowledge acquired during the academic program to real-life problems bycomprehension test.

Course Name Solid waste ManagementOn successful completion of the course the students will be able to:

CO1An understanding of the nature and characteristics of municipal solid wastes and the regulatoryrequirements regarding municipal solid waste management

CO2 Ability to plan waste minimization, design and storage to reduce waste.CO3 An ability to understand the collection, transport, processing of municipal waste.

Course Name Fundamentals of NanotechnologyOn successful completion of the course the students will be able to:

CO1 Learn and understand the purpose of Nanotechnology.

CO2Understand application of carbon nanotubes and process the involved, learn microfabrication.

CO3 Understanding different types of NEMS, MEMS and learn principles of microscopesSemester VIII

Course Name Total Quality ManagementOn successful completion of the course the students will be able to:

CO1Understand definition of quality, analysis techniques for quality costs, role of senior management andits functions.

CO2 Understand the principles of TQMCO3 Understand the importance of seven tools of quality

Course Name Petroleum Refinery EngineeringOn successful completion of the course the students will be able to:

CO1 Have knowledge on petroleum properties, resources and compositionCO2 Familiarize on different exploration techniques.CO3 Identify the petroleum products based on the properties and give specifications.

Course Name Drugs and Pharmaceutical TechnologyOn successful completion of the course the students will be able to:

CO1 Understand the Drug Metabolism and pharmaco–kinetics principles

CO2Apply knowledge of unit processes and analytical methods to develop new processes and productformulations.

CO3Demonstrate statistical quality control procedure and quality assurance programmes in various stagesof pharmaceutical process.

Course Name Bioreactor DesignOn successful completion of the course the students will be able to:

CO1Predict fermentation kinetics of growth, product formation, substrate utilization kinetics of bacteria

CO2 Design a bioreactor considering mass transfer between different phases

CO3Analyze differences between reactor types and modes of operation, and exploit these differences forvarious design goals.

Course Name Corrosion EngineeringOn successful completion of the course the students will be able to:

CO1 Learn the principles of Corrosion and understand the environmental effects.CO2 Differentiate possible types of corrosion in a particular situation.CO3 Apply different corrosion testing methods for a system.

Course Name Project Work – Viva voceOn successful completion of the course the students will be able to:

CO1 Analysis independently to design experimentsCO2 SimulateCO3 Fabricate and Setup experiments.

CO4Demonstrate the application of the chemical engineering principles to particular process variables foroptimization of experimental projects.

Program Name B.E. (CIVIL ENGINEERING)Semester I


CO1 The ability to comprehend facets of grammarCO2 The ability to be proactively readCO3 The ability to interactCO4 The ability to carry out extempore discussionsCO5 The ability to comprehend facets of grammar

Course Name ENGINEERING MATHEMATICS-IOn successful completion of the course the students will be able to:





CO5 Developing the knowledge of basic linear algebraic concepts.Course Name ENGINEERING PHYSICS


CO1To understand properties of solids with different types of moduli and to gain knowledge aboutabsorption coefficients of solids and different surfaces.

CO2 To understand basic concepts of high frequency sound waves and its applications.


CO4To understand the concepts of production of laser and its behaviour with diffraction principle ofinterference.

CO5To apply the concept of polarization phenomenon and thereby its applications in fiber opticcommunication.


CO1 Understanding the concepts of electrochemistry and Energy storage devicesCO2 Understanding the chemistry of CorrosionCO3 Applying the basic concepts of thermodynamics for engineering streamCO4 Understanding the basic concepts of phase equilibriumCO5 Developing the knowledge of chemistry behind water technology


CO1 Perform free hand sketching of basic geometrical constructions and multiple views of objects.CO2 Draw orthographic projection of lines and plane surfaces.

CO3 Draw projection of solids of simple solids.CO4 Draw section of solids and development of lateral surfaces.CO5 Prepare isometric and perspective sections of simple solids


CO1 Acquire knowledge in computer problem solving techniques.CO2 Formulate algorithm for simple problems.CO3 Implement the programs in C using arrays and strings.CO4 Develop programs using functions, structures and files.






Course Name COMPUTER PRACTICES LABOn successful completion of the course the students will be able to:

CO1Efficiently apply MS-Word and MS-Excel for creating document & spreadsheets for variousapplications.

CO2 Design presentation using MS-PowerPoint with animation effects.CO3 Write and compile programs using C- Language.CO4 Develop programs in C for any computing problems.

Course Name LANGUAGE LABOn successful completion of the course the students will be able to:

CO1 Students will be able to understand, analyze and interpret the essentiality of grammar.

CO2Students will be able to build vocabulary by means of communication via direct and indirectcommunication.

CO3 Students will be able to improve pronunciation skills.CO4 Students will be able to understand various rules and means of written communication

Semester IICourse Name TECHNICAL ENGLISH - II





Course Name ENGINEERING MATHEMATICS-IIOn successful completion of the course the students will be able to:





Course Name APPLIED CHEMISTRY


CO1




CO1 Ability to resolve the forces into single equivalent forces at equilibrium conditions.

CO2Ability to draw the free body diagram of a body and to find the moment – couple of rigid bodies.

CO3 Ability to calculate the centroid and Moment of inertia for different 2-D plane figures.CO4 Ability to solve rigid body subjected to dynamic forces.CO5 Ability to analyze the body under frictional forces.

Course Name BASIC CIVIL & MECHANICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Recognize and understand the classification in surveying.CO2 Know the various types of bridges and dams.CO3 Learn the manufacturing processes like foundry, welding and forging.CO4 Understand reasons for differences among operating characteristics of different engine.CO5 An ability to explain the components of Refrigeration and Air conditioning cycle.


CO1Verify the theoretical ideas and concepts covered in lecture by completing a host of experiments.


CO3 Acquire and interpret experimental data to examine the physical law.Course Name ENGINEERING PRACTICES LABORATORY

On successful completion of the course the students will be able to:CO1 An ability to prepare simple lap, butt and tee joints using arc welding equipments.CO2 Students will be able to prepare sheet metal models for household and industrial applications.





CO1

Use the full range of CAD commands and options and employ shortcuts and time-saving strategies tooperate the program at a level of efficiency acceptable for employment as a CAD Engineer.

CO2Use the CAD software package to create drawings from scratch and to modify, manipulate, copy,delete, save, and plot drawings.

CO3 Draw different kinds of engineering curves using the CAD software packages.

CO4Draw the sectional top view, sectional front view and true shape of the section for cylinder, cone,pyramid and prisms.

CO5 Create, render, and manipulate 3D drawings and convert 3D drawings to 2D drawings.Semester III

Course Name ENGINEERING MATHEMATICS IIIOn successful completion of the course the students will be able to:

CO1Able to understanding the principle and to cultivate the art of formulating the physical problems in thelanguage of mathematics.

CO2Able to understanding the Fourier series analysis which is central to many applications in engineeringapart from its use in solving boundary value problems.

CO3

Able to understanding the Effective mathematical tools for the solution of partial differential equations.To develop Z-transform techniques which will perform the same task for discrete time systems asLaplace transform.

CO4Able to understand the of Partial Differential Equations separation of Variables with Applicationsusing Fourier series

CO5Able to understand the Solution of difference equations using Z – transform and Partial fractionsmethod


CO1 Able to understand & appropriate the structure of ecosystem and its impact on environmentCO2 Able to understand the various natural resources and biodiversityCO3 Able to recognize the environmental problems caused due to pollution.CO4 Able to understand the concept of sustainable developmentCO5 Able understand about globalization and hurdles on sustainability

Course Name APPLIED GEOLOGYOn successful completion of the course the students will be able to:

CO1 Able to the elementary concepts of geology in civil engineeringCO2 Able to know the mineralogyCO3 Able to distinction between rocksCO4 Able to surface and subsurface investigations of civil engineering practicesCO5 Able to know the geotechnical investigation

Course Name MECHANICS OF SOLIDSOn successful completion of the course the students will be able to:

CO1Able to find the maximum values of the normal shearing stresses at a given point of a structuresubjected to any loading combinations.

CO2Able to determine the max values of the shear & bending moments in a beam & the correspondingshearing & bending stresses

CO3 Able to determine the design of beamsCO4 Able to design of shafts for strength and stiffness consideration.CO5 Able to design of springs due to strain energy, deflection

Course Name MECHANICS OF FLUIDSOn successful completion of the course the students will be able to:

CO1 Able to Recall the properties of fluids.CO2 Able to Compute the total pressure and centre of pressure for the various surfaces.

CO3Able to Apply the knowledge on the potential function, stream functions and Continuity equation

CO4 Able to Estimate the design phenomena observed as flow in a pipes and platesCO5 Able to Formulate the dimensions of the models and similitude.

Course Name BUILDING MATERIALS & CONSTRUCTION PRACTICESOn successful completion of the course the students will be able to:

CO1 Able to know the properties of materials.CO2 Able to know the coenventional and modern constructionCO3 Able to know the sub structure & frame workCO4 Able to know the super structureCO5 Able to know timber and other materials

Course Name SURVEYING IOn successful completion of the course the students will be able to:

CO1 Table to understand the concept of chain surveyingCO2 Able to learn the conversion system of bearing and their error adjustmentsCO3 Able to get knowledge on different types of levelling & its applicationsCO4 Able to understand the Reconnaissance survey for route and engineering projectsCO5 Able to understand the concept of theodolite surveying, setting out of curves

Course Name SURVEYING PRACTICE – IOn successful completion of the course the students will be able to:

CO1 Able to carry out survey work covering large areaCO2 Able to measure differences in elevation and distance accessible and inaccessible pointCO3 Able to carry out alignment surveys and compute area / quantitiesCO4 Able to carry out setting out of curves by theodoliteCO5 Able to carry out the measurement by connecting the plotted points

Course Name STRENGTH OF MATERIALS LABORATORYOn successful completion of the course the students will be able to:

CO1 Able to apply energy principles in analysing structures

CO2Able to analyse the indeterminate beams and their deflections which are required for designingstructures

CO3 Able to analyse columns and to locate kern of columnCO4 Able to analyse thick cylinders subjected to fluid pressureCO5 Able to apply theories of failure to calculate capacity of structure/system

Semester IVCourse Name NUMERICAL METHODS

On successful completion of the course the students will be able to:CO1 Able to solve the eigenvector problems.CO2 Able to solve problems by numerical differentiation and integration.

CO3Able to solve the numerical differentiation and interpolation and the errors associated with them.

CO4Able to solve the engineering problems associated with the ordinary and partial differential equations.

CO5 Able to apply numerical techniques to real-world problems.Course Name STRENGTH OF MATERIALS

On successful completion of the course the students will be able to:CO1 Able to apply energy principles in analysing structures

CO2Able to analyse the indeterminate beams and their deflections which are required for designingstructures

CO3 Able to analyse columns and to locate kern of columnCO4 Able to analyse thick cylinders subjected to fluid pressureCO5 Able to apply theories of failure to calculate capacity of structure/system

Course Name GEOTECHNICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Able to classify the various types of soilCO2 Able to determine the physical and engineering properties of soilCO3 Able to determine the stresses in soils with respected to given loading conditionsCO4 Able to quantify the shear behaviour of soilCO5 Able to derive the stability of slopes

Course Name SURVEYING IIOn successful completion of the course the students will be able to:

CO1 Able to use modern survey equipment.CO2 Able to utilize the modern engineering tools necessary for engineering practices.

CO3Able to completing assigned fieldwork in control surveying, triangulation, trilateration and topographicsurvey.

CO4Able to locate a celestial body using different co-ordinate systems in astronomical surveying.

CO5 Able to interpret and scale aerial photographs.Course Name Transportation Engineering – I

On successful completion of the course the students will be able to:CO1 Able to do geometric design of highways considering the IRC specificationsCO2 Able to do structural design of flexible and rigid pavementsCO3 Able to plan the road networks

CO4 Able to successfully lead and manage highway engineering projectsCO5 Able to perform economic analysis for highway management

Course Name APPLIED HYDRAULIC ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Able to analyze the flow characteristic of open channelCO2 Able to design the most economical channel section in irrigation channelsCO3 Able to design spillwaysCO4 Able to develop pilot studies on hydraulic turbinesCO5 Able to select and design pumps for various flow

Course Name OPEN CHANNEL FLOWOn successful completion of the course the students will be able to:

CO1 Able to analyze the characteristic of open channel flowCO2 Able to design the most economical channel section of channelsCO3 Able to analyze and profile varied flowCO4 Able to estimate hydraulic jump and surgesCO5 Able to design weirs, notches, culverts

Course Name FLUID MACHINERYOn successful completion of the course the students will be able to:

CO1 Able to calculate forces and work done by a jet on fixed or moving plate and curved platesCO2 Able to apply the working principles of Impulse and Reaction turbines

CO3Able to select the type of turbine required with reference to available head of water and discharge

CO4 Able to analyze the performance of pumpsCO5 Able to perform studies on various miscellaneous hydraulic machines in their research

Course Name SURVEYING PRACTICE- IIOn successful completion of the course the students will be able to:

CO1Able to calculate the height of an inaccessible point by system of tacheometry and to apply fieldprocedures in setting out of a curve.

CO2 Able to calculate the azimuth of a line by observation of sun.CO3 Able to survey a large area using total station

CO4Able to identify the type of curve required for the purpose of highways, railways etc., and plotting thesame with appropriate accuracy

CO5 Able to operate the DGPS instrumentSemester V

Course Name CONCRETE TECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Able to know the properties of materials required for concreteCO2 Able to get the knowledge on mineral and chemical admixturesCO3 Able to know the design procedures for making concreteCO4 Able to know the tests on concrete - Fresh and hardened concreteCO5 Able to know the properties of different materials used for making special concrete

Course Name STRUCTURAL ANALYSIS - IOn successful completion of the course the students will be able to:

CO1 Able to find the deflections of determinate structures.CO2 Able to understand the concept of influence line and able to draw for determinate structures.CO3 Able to get the knowledge on two and three hinged arches and able to find the reactions.CO4 Able to draw the bending moment diagram by using slope deflection method.CO5 Able to draw the bending moment diagram by using moment distribution method.

Course Name DESIGN OF RCC STRUCTURESOn successful completion of the course the students will be able to:

CO1 Able to use the IS codes for analysis and design of RC structures.CO2 Able to analyze the structure to quantify the capacity of the constructed structures.CO3 Able to design a RC building structure.CO4 Able to detail the reinforcement in each elements of RC structure as per IS codal provisions.

CO5 Able to detail the connections between structural elements.Course Name Water Supply Engineering

On successful completion of the course the students will be able to:CO1 Able to know about water demand, its source, collection and distribution

CO2Able to identify the quantity and quality of water from various sources andprocesses involved in thewater conveyance systems

CO3 Able to compute the quality and characteristics of wastewater.CO4 Able to infer the design principles of unit operations and processes for water treatment.CO5 Able to justify method of distribution system.

Course Name FOUNDATION ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Able to learn about the foundation types and methodology.CO2 Able to design Shallow foundation.CO3 Able to design raft foundation.CO4 Able to design piles and retaining walls theories.

CO5Able to study the methods to investigate the soil condition, sampling techniques and to design suitablefoundation.

Course Name Hydrology And Water Resource EngineeringOn successful completion of the course the students will be able to:

CO1 Able to analyze the various phases of Hydrological cycle and its data interpretationCO2 Able to analyze the hydrograph for surface runoff systemsCO3 Able to assess the flood damages and to suggest remedial measures for flood controlCO4 Able to plan, manage and evaluate any water resources projectCO5 Able to analyse about the drought and to plan and manage the situation

Course Name Groundwater EngineeringOn successful completion of the course the students will be able to:

CO1 Able to analyze the basics of groundwater engineering.

CO2Able to develop skills in analyzing steady flow and unsteady flow situation in groundwater studies.

CO3 Able to gain knowledge about groundwater exploration and designing of wells.CO4 Able to evaluate artificial recharge methods and structuresfor groundwater managemenCO5 Able to design a ground water model for a basin

Course Name Computational Methods In HydrologyOn successful completion of the course the students will be able to:

CO1 Able to analyze hydrometerological measurement and abstractionsCO2 Able to enhance the computational knowledge in hydrologyCO3 Able to develop skills in computing hydrological and hydraulic modelsCO4 Able to understand the Concepts of flow routing in hydrologyCO5 Able to understand the flow equation in hydrology

Course Name WATERSHED MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Able to analyze hydrometerological measurement and abstractionsCO2 Able to enhance the computational knowledge in hydrologyCO3 Able to develop skills in computing hydrological and hydraulic modelsCO4 Able to understand the Concepts of flow routing in hydrologyCO5 Able to understand the flow equation in hydrology

Course Name Ground Water Development And ManagementOn successful completion of the course the students will be able to:

CO1Able to evaluation of groundwater resources-types of aquifers and method of estimating safe yieldsurface geophysical methods

CO2Able to understand the groundwater flow analysisand to find Basic potential theoryfor irrationalityuniform

CO3Able to understand the groundwater quality chemical constituents in atmospheric in atmosphericprecipitation

CO4Able to conjunctive use of ground water Ground water recharge and parameters of ground waterbalance

CO5Able to understand the Groundwater development-static and dynamic resources-well interference withyield of aquifers

Course Name GEOTECHNICAL ENGINEERING LABORATORYOn successful completion of the course the students will be able to:

CO1 Able to gain knowledge about Grain size distribution of soilCO2 Able to know fundamentals of Atterberg limits .CO3 Able to determine the Field density and permeability of soil.CO4 Able to evaluate the shear strength of soil.CO5 Able to determination the Specific gravity of soil

Course Name ENVIRONMENTAL ENGINEERING LABORATORYOn successful completion of the course the students will be able to:

CO1 Able to determine the amount of various minerals present in water.CO2 Able to conduct DO& BOD test.CO3 Able to conduct COD test.CO4 Able to conduct Bacteriological AnalysisCO5 Able to determine the amount of bleaching powder

Course Name EXTENSIVE SURVEY CAMPOn successful completion of the course the students will be able to:

CO1 Able to survey the given area using triangulation survey.CO2 Able to determine the latitude &longitude of a given point or positionCO3 Able to study about the moment of sun using astronomical surveying.CO4 Able to plot the contour by using Total StationCO5 Able to learn to prepare final Auto CADD drawings

Semester VICourse Name Structural Analysis – II

On successful completion of the course the students will be able to:CO1 Able to analyse determinant and Indeterminate structure using Flexible methodCO2 Able to analyse structures using matrix methods.CO3 Able to understand the basics of Finite Element Methods.CO4 Able to know about plastic analysis of intermediate beams and frames.CO5 Able to analyse space truss and suspension cables.

Course Name Design of Steel StructuresOn successful completion of the course the students will be able to:

CO1 Able to Design steel structure elements using limit state design concept.CO2 Able to Design bolted and welded joints.CO3 Able to Use IS codes and Design tension, compression members and beams.CO4 Able to Design roof trusses.CO5 Able to Design Gantry girders and other industrial structures.

Course Name Sanitary EngineeringOn successful completion of the course the students will be able to:

CO1 Able to learn about waste water sources and collection.CO2 Able to the different types of Sewer systems.CO3 Able to know and identify waste water characterizationCO4 Able to disposal the effluents in most efficient mannerCO5 Able to design the unit processes for conventional and advanced waste water treatment

Course Name Transportation Engineering – IIOn successful completion of the course the students will be able to:

CO1 Able to plan and do the geometric design of the railway track and its elements.CO2 Able to design turn outs and modern method of maintenance of railway trackCO3 Able to plan and design of the Runway and TaxiwayCO4 Able to design the elements of an airport and its layout, aids and traffic control.CO5 Able to understand different terminologies in harbour Engineering

Course Name Irrigation EngineeringOn successful completion of the course the students will be able to:

CO1 Able to know types and methods of irrigation system.CO2 Able to have more knowledge focussed on irrigation and water resources engineering.

CO3Able to apply multidisciplinary approaches to plan, design and execute relevant irrigation and waterresources structures

CO4Able to design various irrigation structures like canal regulators, cross drainage works, canalheadwork’s etc.,

CO5Able to ability to evaluate Irrigation management system and development of irrigation projects

Course Name CONCRETE AND HIGHWAY MATERIALS LABORATORYOn successful completion of the course the students will be able to:

CO1 Able to find out the properties of cement.CO2 Able to find out the properties of aggregate.CO3 Able to find out the properties of BitumenCO4 Able to find out the properties of concrete.CO5 Able to design concrete mix design

Course Name Computer Aided Design – IOn successful completion of the course the students will be able to:

CO1 Able to draw the load bearing wallsCO2 Able to draw the details of doors and windowsCO3 Able to draw the different types of roofs trussesCO4 Able to draw the plan sectional elevation of a structureCO5 Able to draw the different views of a structure

Course Name ADVANCED CONCRETE TECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Able to know various tests on fresh properties of concrete.CO2 Able to know various tests on hardened concrete,CO3 Able to students are capable to do the Mix design as per IS.CO4 Able to know about some special types of concrete and Dewatering TechniquesCO5 Able to know about types of concreting methods and Dewatering Techniques

Course Name PREFABRICATED STRUCTURESOn successful completion of the course the students will be able to:

CO1Able to understand the basic concepts of prefabrication and their needs in construction industry.

CO2 Able to knowing the behaviour of prefabricated structures.CO3 Able to design the cross section and joints of prefabricated unitsCO4 Able to design the wall panels partition and load bearing walls of prefabricated unitsCO5 Able to construct the pre-fabricated structures with various structure elements

Course Name EARTHQUAKE RESISTANT DESIGNOn successful completion of the course the students will be able to:

CO1 Able to understand the causes and effect of earthquake..CO2 Able to draw the mode shape for a SDOF, TDOF, MDOF Structures

CO3Able to design masonry and RC structures to the earthquake forces as per the recommendations of IScodes of practice.

CO4 Able to know ductile detailing of RC Structures

CO5Able to find They will be able to understand the concepts of damping and vibration control techniques

Course Name DESIGN OF PSC STRUCTURESOn successful completion of the course the students will be able to:

CO1 Able to analyse prestressed concrete sections.CO2 Able to design prestressed concrete sections for flexure and shearCO3 Able to analyse and design composite and continuous beamsCO4 Able to design anchorage zone

CO5 Able to design prestressed concrete pipes and tanks.Course Name SMART STRUCTURES

On successful completion of the course the students will be able to:CO1 Able to understand principles and mechanisms of smart materialsCO2 Able to work with various types of material used in smart structuresCO3 Able to make use of the principles of control system in smart structuresCO4 Able to work with various types of Sensors used in smart structuresCO5 Able to utilize the smart materials in effective manner

Course Name Irrigation DrawingOn successful completion of the course the students will be able to:

CO1 Able to design and draft the various components of the Tank.CO2 Able to design and draft the various irrigation impounding structures.CO3 Able to know about the various aspects in canal drainage works.CO4 Able to design and draft cross drainage structuresCO5 Able to design and draft canal regulation structures

Course Name ENVIRONMENTAL ENGINEERING DRAWINGOn successful completion of the course the students will be able to:

CO1 Able to outline the layout of water and sewage treatment plant for a city.CO2 Able to explain the design principles of various water and sewage treatment units.CO3 Able to design the water supply and sewage treatment system for a city.CO4 Able to prepare the design parameters for water treatment systems .CO5 Able to sketch the detailed drawings with scale.

Course Name STEEL STRUCTURAL DRAWINGOn successful completion of the course the students will be able to:

CO1 Able to design Bolted and Welded jointsCO2 Able to design Column steel Lacing and BattensCO3 Able to design Column steel Lacing and BattensCO4 Able to design slab base and gusseted base.CO5 Able to design of Roof Truss and Gantry Girder.

Course Name Bridge Engineering DrawingOn successful completion of the course the students will be able to:

CO1 Able to design and draw slab culverts and T-Beam bridge.CO2 Able to design and draw RCC slab and prestressed concrete bridgesCO3 Able to design and draw box and pipe culverts.CO4 Able to design and draw a truss girder bridge.CO5 Able to design and draw various types of bracings

Course Name RCC Structural DrawingOn successful completion of the course the students will be able to:

CO1Able to Understand the given plan, sectional view of a buildings and implement the same inconstruction site.

CO2 Able to prepare the bar bending schedules for the given buildingCO3 Able to develop the structural drawing for various RCC elements.CO4 Able to develop the structural drawing for square, trapezoidal and circular footingsCO5 Able to prepare the detailed drawing of reinforcement’s details for any kind of buildings.

Semester VIICourse Name ESTIMATION AND QUANTITY SURVEYING

On successful completion of the course the students will be able to:CO1 Get knowledge on different types of estimateCO2 To find the quantities of various types of works in RCC buildingCO3 To estimate the quantities o septic tank and road pavementsCO4 To arrive the rates & Costs for various types of worksCO5 To prepare the tender document and muster roll

Course Name GROUND IMPROVEMENT TECHNIQUESOn successful completion of the course the students will be able to:

CO1Able to gain knowledge on different ground improvement techniques and contemporary issues.

CO2 Able to analyse the various dewatering techniquesCO3 Able to know different ground improvement techniques for cohesive and cohesionless soilCO4 Able to understand the concept and application of earth reinforcementCO5 Able to understand grouting techniques and stability analysis.

Course Name ROCK MECHANICSOn successful completion of the course the students will be able to:

CO1 Understanding the Rock and engineering materialCO2 Learn about the physical properties of rocksCO3 Study about the elasticity in rock mechanicsCO4 To conduct the rock testingCO5 To study about the stress wave

Course Name PRINCIPLES OF REMOTE SENSING AND GISOn successful completion of the course the students will be able to:

CO1 Understand the concepts of remote sensingCO2 Know about the types of sensors used in Remote sensingCO3 Process the digital image data by interpretationCO4 Work on spatial and Non spatial data in GIS EnvironmentCO5 Digitize, store and analyse the data with GIS software

Course Name ENGINEERING OPTIMIZATIONOn successful completion of the course the students will be able to:

CO1 Get familiarized with basic concepts in optimizationCO2 Apply calculus in optimization techniqueCO3 Formulate Linear programming and solve using optimizationCO4 Formulate dynamic programming and solve using optimizationCO5 Formulate and solve the problem using Integer programming.

Course Name FUNDAMENTALS OF MININGOn successful completion of the course the students will be able to:

CO1 Analyse the concepts of Mining and their impactsCO2 Decide about the prospecting methods in miningCO3 Get familiarized with the exploration techinques used in miningCO4 Get familiarized with the explosives used in mining operationCO5 Decide about the mining operation required for mining process

Course Name CARTOGRAPHYOn successful completion of the course the students will be able to:

CO1 Understand the concepts of cartographyCO2 Know about earth map relationship and coordinate systemCO3 Understand data model and data structure used for spatial dataCO4 Design colour, pattern creation and specificationsCO5 Map projection and 2D Transformation

Course Name GLOBAL WARMINGOn successful completion of the course the students will be able to:

CO1

An insight into carbon cycle, physical basis of the natural greenhouse effect, including the meaning ofthe term radiative forcing, climate change, global warming and measures to adapt and to mitigate theimpacts of climate change

CO2Understanding on the growing scientific consensus established through the IPCC as well as thecomplexities and uncertainties

CO3Ability to plan climate change mitigation and adaptation projects including the use of alternate fuelsand renewable energy

CO4Able to Technical Guidelines for Assessing Climate Change Impact, green roofing strategies andenergy efficiencies.

CO5 To study about Alternative Fuel and Renewable Energy. Course Name PROFESSIONAL ETHICS


CO1Develop the inner beauty required to serve the society by giving values to morality and ethics.

CO2 Understand the role and responsibilities of an engineer and to act accordinglyCO3 Become the virtuous experimenters in the Engineering field.CO4 Reduce the risks and give the values to collegialityCO5 Deal with the issues involved in various fields


CO1 Identify the barriers in TQM implementation and resolve the problems.

CO2Provide the quality in products and make the customers satisfied by applying various TQM principles

CO3 Implement the management tools in statistical process controlCO4 Develop benchmark and able to attain it through appropriate toolsCO5 Implement the quality systems

Course Name Indian Constitutional SocietyOn successful completion of the course the students will be able to:

CO1 Know the Philosophical foundations and details of the Indian ConstitutionCO2 Have knowledge on Structures of the Union Government and FunctionsCO3 Have knowledge on Structures and Functions of the State GovernmentCO4 Understand Federal And Parliamentary SystemCO5 Understand Indian Social Structure

Course Name INTELLECTUAL PROPERTY RIGHTSOn successful completion of the course the students will be able to:

CO1Know about it importance, organizations and agencies importance of intellectual property rights.

CO2 Able to select and evaluate trade markCO3 Understands Law and issues of copy rights and patentsCO4 Misappropriations of trade secrets and protectionCO5 Have International overview on intellectual property

Course Name CONSTRUCTION MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Able to know about Planning methods and work taskCO2 Able to know about scheduling & controlling of projectsCO3 Able to understand the cost control techniques

CO4Synthesize information from building codes, zoning and other laws and manufacture specifications.

CO5Analyse safety planning and productivity in construction management and information data basesystem.

Course Name HOUSING PLANNING & MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Able to know about housing laws and bye lawsCO2 Able to know about housing programsCO3 Able to plan and design housing projectsCO4 Able to know about Construction techniques and cost effective materialsCO5 Able to know about housing finance and project appraisal

Course Name CONSTRUCTION PLANNING & PROJECT MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Able to know about Planning methods and work taskCO2 Able to know about scheduling & controlling of projectsCO3 Able to understand the cost control techniquesCO4 Able to understand the safety aspects to be followed and the quality concerns

CO5Able the know the Projects information and its usage in software tools for project management

Course Name PERFORMANCE APPRAISAL OF LARGE PROJECTSOn successful completion of the course the students will be able to:

CO1 Ability to understand objectives of performance managementCO2 Ability to know the realities of ethics in managementCO3 Able to understand the role of managers in project managementCO4 To learn the Improving quality of planning and design of performance managementCO5 Able to know the ethics in performance management

Course Name Architecture and Town PlanningOn successful completion of the course the students will be able to:

CO1 To know the various principles of Architectural DesignCO2 Able to plan and draw the layout of industrial building as per bye lawsCO3 To get the knowledge on building services like Ventilator, Fire hydrant, elevator etcCO4 To get the knowledge on town planning with all basic requirementsCO5 Able to plan the township with population density and traffic network etc

Course Name Urban and Regional PlanningOn successful completion of the course the students will be able to:

CO1 To know about the Principles & Methodologies of Regional Planning

CO2To know the Detailed Development Plan, City. Its Scope & Contents Data Collection Futureproposals & Policies

CO3 To learn the Application of management systems for infrastructure developmentCO4 Able to know the urban renewal systemCO5 Understand the relationship between human and the society

Course Name RURAL INFRASTRUCTURE DEVELOPMENTOn successful completion of the course the students will be able to:

CO1 Understand the importance of Rural Infrastructure.CO2 Design Rural transportation systems.CO3 Analyse the social issues, problems related with social infrastructureCO4 Understand the Rural communication & information technologiesCO5 Adopt the various sources of renewable & non-renewable energies in Rural context.

Course Name Interior Design PrinciplesOn successful completion of the course the students will be able to:

CO1 Case study presentations to understand the vocabulary of interior design in Indian context.CO2 Present live scale furniture design models for various spaces

CO3Understand the various components in interior space and present the same through drawings.

CO4 Analysis of interior lighting through case study or video presentationsCO5 Analysis of interior lighting through case study or video presentations.

Course Name CADASTRE AND LAND MANAGEMENT SYSTEMOn successful completion of the course the students will be able to:

CO1After completion of the course students will be having a clear knowledge of Large Scale and CadastralMapping.

CO2They will be well accomplished in the application of RS and GIS for developing Web based LandManagement System.

CO3 To know 3D and 4D cadastral systems, modernization programs in INDIA.CO4 Concept of land reforms, land consolidation and e-governance and LIS.CO5 To learn the software

Course Name COMPUTER AIDED DESIGN LABORATORY - IIOn successful completion of the course the students will be able to:

CO1 design the solid slab and RCC tee beam bridges.CO2 design and draft steel bridgesCO3 design and draft connectionsCO4 design and draft different types of water tanksCO5 design of pressed, rectangular and hemispherical bottomed steel tank

Semester VIII

Course Name Fundamentals of Bridge structuresOn successful completion of the course the students will be able to:

CO1 Able to know Outline the basic design concept of bridgesCO2 Able to design of steel bridges, girder and platesCO3 Able to design of Reinforced concrete slab bridges.CO4 Able to design of Reinforced concrete girder bridgesCO5 Able to design of Prestressed concrete bridges

Course Name Fundamentals of Industrial structuresOn successful completion of the course the students will be able to:

CO1 Able to identify the type of structures and choose appropriate building materials.CO2 Able to identify the location for lightning and ventilation.

CO3Able to identify the various types of steel roof trusses and various loads acting over it , analyze anddesign it.

CO4Able to describe the design concept of crane girder, mill bends, bunkers and silos using structural steel.

CO5 Able to illustrate the principle of prefabricated structures.Course Name Disaster Mitigation & Management

On successful completion of the course the students will be able to:CO1 Able to understand the concepts, definitions of hazards and disasters.CO2 Able to outline the disaster risk reduction strategies.CO3 Able to understand concepts of Inter-relationship between disasters and development.CO4 Able to describe the preparedness in disaster management.CO5 Able to know the case studies in disaster management.

Course Name Transport Project Planning & EvaluationOn successful completion of the course the students will be able to:

CO1 Able to identity the planning and modes of transportation.CO2 Able to point out steps, levels and plans in transportation.CO3 Able to understand concepts of transportation system

CO4Able to understand principles of transportation Systems Approach and modeling the complex anddynamic traffic and transportations systems.

CO5 Able to know the preparation of detailed project report and evaluationCourse Name VALUATION OF REAL PROPERTIES

On successful completion of the course the students will be able to:CO1 Able to understand the concepts of cost, price & value.

CO2Able to arrive the present market value of a property by using different methods of valuations.

CO3Able to understand the meaning, purpose & calculation of deprecation in the valuation of the existingproperties

CO4 Able to understand the project profitability.

CO5Able to understand about banking, rate of interest & procedure to avail the funds for constructionactivities

Course Name EMPLOYABILITY SKILL LABORATORYOn successful completion of the course the students will be able to:

CO1 Determine the cohesion, bearing capacity of soil.CO2 Identify the behaviour and performance of the beams under cyclic loadingCO3 Prepare the contour maps for the given site or areaCO4 To check the strength parameters of the soil.CO5 To know the efficiency of the turbine.

Program Name B.E (COMPUTER SCINECE ENGINEERING)Semester I

Course Name ART OF PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Students will get acquainted with basic components and capabilities of a typical computing system.

CO2Students will be able to critically think about basic problems and develop algorithms to solve, validateand verify with computing systems

CO3Students will be able to identify appropriate language constructs and approach to computationalproblems.

CO4Students will be acquainted with coding standards including documentation which are required to beused for the development of effective, efficient and maintainable Programs


CO1 develop programs in C for any computing problemsCO2 design presentation using MS-PowerPoint with animation effects.CO3 write and compile programs using C- Language

Course Name FUNDMENTAL OF COMPUTING AND C PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Acquire knowledge in computer problem solving techniquesCO2 Formulate algorithm for simple problems.CO3 Implement the programs in C using arrays and strings.

Semester IICourse Name OBJECT ORIENTED PROGRAMMING

On successful completion of the course the students will be able to:CO1 Able to develop solutions to a given problems using class object concepts

CO2Able to make use of Polymorphism overloading and Inheritance concepts to solve real world problems.

CO3 Able to develop and implement File I/O Operations and Exception handling mechanisms.Course Name OBJECT ORIENTED PROGRAMMING LAB

On successful completion of the course the students will be able to:CO1 Able to designs, develop programs using inheritance and polymorphism.CO2 Able to implement various file concepts, exception handling in object oriented programmingCO3 Able to construct generic classes using templates.

CO4Able to demonstrate class, object, constructors concepts by using object oriented programminglanguage

Semester IIICourse Name Java Programming Lab


CO1 Write a programs that use the fundamental program constructs, including packages & interfacesCO2 Create &access database connection and handling exceptions.CO3 Design a GUI-based event handling application using Applets &SwingsCO4 Understand the I/O functionality to read & write in the files

Course Name Java ProgrammingOn successful completion of the course the students will be able to:

CO1 Create a real-world application by applying the user defined packages, interfacesCO2 Implement multithreading concepts in real time scenariosCO3 Design a GUI-based application using Applets &Swings.CO4 Understand the usage of Utility & Generic Classes

Course Name Computer Organization and ArchitectureOn successful completion of the course the students will be able to:

CO1 Understand Basic operational concepts and design of ALU of Digital Computer.CO2 Design and analyze the performance of pipelined control unit.CO3 Understand memory hierarchy and I/O OrganizationCO4 Perceive knowledge on Instruction Level Parallelism and Parallel Processing

Course Name DATA STRUCTURES LABOn successful completion of the course the students will be able to:

CO1 Implement C++ programs for manipulating Stacks, Queues, Lists ADT with its Applications

CO2 Apply the different Non-Linear Data Structures for Implementing Solutions to Practical ProblemsCO3 Ability to apply and implement Graph Data Structures for Real Time ApplicationsCO4 Analyze and Implement various Searching and Sorting and hashing Algorithms


CO1 Solve the Postulates of Boolean algebra using different techniquesCO2 Designing the Combinational and sequential circuitsCO3 Applying the concept of synchronous and asynchronous circuitCO4 Knowledge in VHDL for VLSI Design

Course Name DIGITAL ELECTRONICS LABORATORYOn successful completion of the course the students will be able to:

CO1 Verification of digital circuits using logical IC’sCO2 Implementation of combinational and sequential circuitsCO3 Simplification of Boolean expression and implementing those circuits practicallyCO4 Programming fundamentals in VHDL

Course Name Data StructuresOn successful completion of the course the students will be able to:

CO1Implement various Abstract Data Types to Solve Real life Problems by using Linear Data Structures

CO2 Apply the different Non-Linear Data Structures to Problem SolutionsCO3 Implement graph data structures to solve problemsCO3 Apply Sorting, Searching and Hashing algorithms to the small and large data sets

Course Name Environmental Science and SustainabilityOn successful completion of the course the students will be able to:

CO1 The students will demonstrate relationship among environment and ecosystemCO2 The students will identify and analyze effects of pollution on ecosystemCO3 The students will identify and analyze social issues and sustainable

Course Name ENGINEERING MATHEMATICS – IIIOn successful completion of the course the students will be able to:

CO1 Gaining the concept of analysis of linear discrete system using Z-transform approach.


CO3

Describing an oscillating function which appear in a variety of physical problems by Fourier serieshelps them to understand its basic nature deeply.Acquiring the knowledge to construct partialdifferential equations forvarious physical and engineering real time problems and obtaining solution using Fourier seriesmethods

CO4 Understanding the effect of Fourier transform techniques and their applicationsSemester IV

Course Name Operating Systems LaboratoryOn successful completion of the course the students will be able to:

CO1 Implement basic services and functionalities of operating system using system callCO2 Implement various CPU scheduling algorithm and inter process communicationCO3 : Implement memory management algorithms.CO4 Demonstrate file allocation and organization techniquesCO5 Illustrate disk scheduling algorithm

Course Name Database Management Systems LaboratoryOn successful completion of the course the students will be able to:

CO1 Design and implement database schema for a given problem domainCO2 Populate and query a database using SQL operationsCO3 Prepare reportsCO4 Design & develop an application using advanced databases

Course Name Computer Networks Lab

On successful completion of the course the students will be able to:CO1 Gain knowledge on the basic concepts of open source network simulatoCO2 Analyze and implement various routing algorithmsCO3 Simulate networks and analyze traffic using various toolsCO4 Analyze the performance of protocols in different layers

Course Name Operating SystemsOn successful completion of the course the students will be able to:

CO1 Gain extensive knowledge and apply the concepts of process managementCO2 Determine the efficiency of CPU Scheduling AlgorithmsCO3 Demonstrate and implement memory management, and paging techniques.CO4 Illustrate disk management functionalities and file systems

Course Name Database Management SystemsOn successful completion of the course the students will be able to:

CO1 Gain and design extensive knowledge on various data models and ER diagram

CO2Recognize and develop sophisticated queries and authorization techniques to extract information fromdatabase

CO3 Analyze and eliminate all kind of dependency in a database schema via normalization techniquesCO4 Apply concurrency control and recovery mechanism

Course Name Computer NetworksOn successful completion of the course the students will be able to:

CO1Gain extensive knowledge on networks, role of each network layers, transmission medias and networkcomponents

CO2 Understand the functionality of protocols.CO3 Analyze and implement the design of a network using TCP & UDPCO4 Understand the services in application layer

Course Name Software EngineeringOn successful completion of the course the students will be able to:

CO1Compare and analyze the various life cycle models of software process and describe the process ofrequirement engineering

CO2Prepare Software Requirement document and build requirement model then design the methods forsoftware architecture

CO3 Formulate various implementation and testing strategies in a systemCO4 Familiarize various quality measurements for a software system

Course Name DISCRETE MATHEMATICS AND GRAPH THEORYOn successful completion of the course the students will be able to:

CO1CO2Expertise the knowledge of logics helps to verify the correctness of computer programs and to drawconclusions from scientific experiments

CO3Understand and demonstrate the basic concept of an algorithm and its applications in combinatorialmathematics

CO4 Acquaint the graph theory concepts serves as the base for network analysis.

CO5Internalize the abstract algebraic structure which provides the ability to deal the theory of sequentialmachines, formal languages ,syntactic analysis

Course Name DISCRETE MATHEMATICS AND GRAPH THEORYOn successful completion of the course the students will be able to:

CO1Expertise the knowledge of logics helps to verify the correctness of computer programs and to drawconclusions from scientific experiments

CO2Understand and demonstrate the basic concept of an algorithm and its applications in combinatorialmathematics.

CO3 Acquaint the graph theory concepts serves as the base for network analysis

CO4Internalize the abstract algebraic structure which provides the ability to deal the theory of sequentialmachines, formal languages ,syntactic analysis

Course Name SYSTEM SOFTWAREOn successful completion of the course the students will be able to:

CO1 Conceptualize the Features of AssemblersCO2 Design and Implement the functionalities of Loaders and LinkersCO3 Implement the Functions of Macro Processors and Text EditorsCO4 Conceptualize the process and system Virtual MachinesCO5 Apply Virtual Machine concepts to implement Real Time Applications.

Course Name Design and Analysis of AlgorithmOn successful completion of the course the students will be able to:

CO1 Design algorithm for solving a problem using design techniquesCO2 Analyze time and space complexity of algorithmsCO3 Decisively analyze diverse algorithm strategies for the given problem.CO4 Formulate and compute recurrence relations for the given algorithmCO5 Improve the efficiency of the algorithm by understanding its limitations

Course Name UNIX INTERNALSOn successful completion of the course the students will be able to:

CO1 identfy the data structure for kernel and methods for managing the buffer cacheCO2 Design and implement the subsystems of an operating systemCO3 Implement the various system calls for Unix OSCO4 .Analyse process and memory management

Course Name Formal Languages and Automata TheoryOn successful completion of the course the students will be able to:

CO1 Design a finite automaton to recognize a given regular languageC02 Construct regular expressions and grammarsC03 Convert grammars to normal forms and eliminate ambiguities

Course Name PC HARDWARE AND TROUBLE SHOOTINGOn successful completion of the course the students will be able to:

CO1 Identify the purpose and operation of the major components of a computerCO2 Diagnose and correct the common failures in a computerCO3 Install and accurately troubleshoot the device driversCO4 Assemble and disassemble the components of a computer

Semester VCourse Name Microprocessors and Microcontrollers Laboratory

On successful completion of the course the students will be able to:CO1 Generate the code for arithmetic operations in assembly languageCO2 Generalize the developed code using 8086 processors and 8051 controllersCO3 Reorganize the Interfacing peripherals with microprocessor and microcontrollerCO4 Reorganize the Interfacing peripherals with microprocessor and microcontroller

Course Name MODELING AND DESIGN LABORATORYOn successful completion of the course the students will be able to:

CO1 Use the UML analysis and design diagramsCO2 Apply appropriate design patternsCO3 Design and implement applications using OO conceptsCO4 Validating the code and design

Course Name EMPLOYABILITY SKILL LABORATORYOn successful completion of the course the students will be able to:

CO1 Comprehend the various strategies of listening and its significance.CO2 Articulate their views clearly and concisely with self-confidence and persuasivenessCO3 Communicate the corporate and social requirements in an impressive written mode

Course Name Microprocessors and Microcontrollers with ApplicationsOn successful completion of the course the students will be able to:

CO1 Recognize the basic Microprocessorarchitecture and its conceptsCO2 Outline the concepts of peripheral interfacing mechanismsCO3 Extend the real world interfacing with microcontrollerCO4 Extrapolate the architectural features of 801XX with 8086 processorCO5 Design various assembly language programming using microprocessors and microcontroller

Course Name MODELING AND DESIGNOn successful completion of the course the students will be able to:

CO1Apply fundamental Object Oriented (OO) modeling and design in solving complex problems andAnalyze problem scenario and identify classes/ Objects, their properties and associations

CO2Construct various UML models (including use case diagrams, class diagrams, interaction diagrams,state chart diagrams, activity diagrams, and implementation diagrams) using the appropriate notation

CO3 Propose the appropriate strategies to incorporate standard quality parameters in the design of a systemCourse Name THEORY OF COMPUTATION

On successful completion of the course the students will be able to:CO1 Construct automata, regular expression for any patternCO2 Design grammars and Automata (recognizers) for different language classesCO3 Write Context free grammar for any constructCO4 Derive whether a problem is decidable or not

Course Name PROBABILITY AND QUEUEING THEORYOn successful completion of the course the students will be able to:

CO1 Construct and solve queuing models that are suitable for practical problems encountered in daily life

CO2Learn the concept of two dimensional random variables which helps to understand and analyse

CO3Imbibe the knowledge of basic probability improves the quality of interpretation and decisionmaking in real time problems of uncertainity

Course Name COMPUTER GRAPHICS AND MULTIMEDIA SYSTEMSOn successful completion of the course the students will be able to:

CO1 Create Interactive Computer Graphics using OpenGLCO2 Develop Two Dimensional Transformations and Clipping AlgorithmsCO3 Design and Apply Three Dimensional Graphics and Visible Surface Detection MethodsCO4 Explore different Multimedia Data Structures and Databases

Course Name NETWORK PROTOCOLSOn successful completion of the course the students will be able to:

CO1 Understand the basics of OSI and TCP/IP protocolsCO2 Analyze the various layers of network protocolsCO3 Acquire knowledge on network security and telephony protocolsCO4 Apply different network environment protocols

Course Name ADVANCED JAVA PROGRAMMINGOn successful completion of the course the students will be able to:

CO1Understand the advanced concepts of Java programming such as Servlets, Session management andJDBC in servlets

CO2 Design and develop java beans Application and implementation of EJB in JavaCO3 Develop and Implement the RMI and ORB protocolCO4 Understand and deploy the application using JSP and javamail API

Course Name AGENT BASED INTELLIGENT SYSTEMOn successful completion of the course the students will be able to:

CO1 Understand and Solve problems using search techniques: Uninformed and InformedCO2 Solve uncertainty problems and acquire decision making capability based on reasoningCO3 Analyze and design a neural network system with planning and learning strategiesCO4 Design intelligent agent system applications.

Course Name ROBOTICS AND AUTOMATIONOn successful completion of the course the students will be able to:

CO1 Knowing the various parts of robots and fields of roboticsCO2 Providing knowledge in robot power sources and sensorsCO3 Understanding and analyze the kinematics and inverse kinematics of robots.

CO4 Learning the robot programing methods and languagCO5 Reviewing some industrial applications of the robot

Course Name C# and .NET programmingOn successful completion of the course the students will be able to:

CO1 Understand anatomy of C# ProgrammingCO2 Develop Console application using object oriented concepts, advanced features in C#CO3 Develop Window form application with Database connectivityCO4 Build Applications using ADO.NET AND ASP.NET

Course Name LINEAR INTEGRATED CIRCUITSOn successful completion of the course the students will be able to:

CO1 Explain the principle of operational amplifier and its characteristicsCO2 Demonstrate the various applications of operational amplifierCO3 Generalize the theory of phased lock loop and its characteristicsCO4 xamine the concept of A-D and D-A converters using operational amplifier

Semester VICourse Name Compiler Design Laboratory

On successful completion of the course the students will be able to:CO1 Construct a token recognizer using LEX and YACCCO2 Demonstrate parsing and construct a syntax tree for control statementsCO3 Generate intermediate code for the intermediate languageCO4 Implement storage allocation strategies and flow graphCO5 Translate the source to target code and optimize i

Course Name Scripting Languages LaboratoryOn successful completion of the course the students will be able to:

CO1 Create dynamic web pages and implement database connectivity with Perl and CGICO2 Develop OOP concepts, file handling functions and database connections with PHPCO3 Implement functions, collections and database integrations in PythonCO4 Use R for effective data analysis and graphics

Course Name Web Programming LaboratoryOn successful completion of the course the students will be able to:

CO1 Design Web pages using HTML/DHTML and style sheetsCO2 Create dynamic web pages using server side scriptingCO3 Design and Implement database applicationsCO4 Develop the simple GUI interfaces to interact with users and real time applications

Course Name Mobile ComputingOn successful completion of the course the students will be able to:

CO1 Understand the working principles of wireless and mobile communication networksCO2 Gain sound knowledge to develop wireless applications using script and markup languages

CO3Apply data communicating methods and networking protocols for mobile and wireless networkenvironments

Course Name Compiler DesignOn successful completion of the course the students will be able to:

CO1 Recognize tokens from language specificationCO2 Parse the generated tokens using top down and bottom up parserCO3 Design semantic rules into a parser that performs attribution while parsingCO4 Represent the intermediate code for the source languages

Course Name Scripting LanguageOn successful completion of the course the students will be able to:

CO1 Demonstrate how to write and properly use Perl scriptsCO2 Create and run simple web applications using PHP.CO3 Design and implement short and efficient Python scripts for longer constructs

Course Name Web ProgrammingOn successful completion of the course the students will be able to:

CO1 Acquire knowledge about functionalities of World Wide Web

CO2 Explore markup languages features and create interactive web pages using themCO3 Learn and design Client side validation using scripting languages

Course Name Multi core ArchitectureOn successful completion of the course the students will be able to:

CO1 Identify the limitations of ILP and the need for multicore architecturesCO2 Discuss the issues related to multiprocessing and suggest solutions

CO3 Point out the salient features of different multicore architectures and how they exploit parallelismCourse Name Parallel and Distributed Computing

On successful completion of the course the students will be able to:CO1 Apply parallel programming algorithms for real world problemsCO2 Acquire knowledge on different processor organization and its mapping.CO3 Implement and deploy the application using distributed transaction processing.CO4 Design various communication protocols using remote procedure callCO5 Develop applications by incorporating distributed computing architectures

Course Name Soft ComputingOn successful completion of the course the students will be able to:

CO1 Acquire knowledge on Artificial Neural Networks, Fuzzy Logic and Genetic AlgorithmsCO2 Apply soft computing techniques to real-life situationsCO3 Design of various soft computing based networks and controllersCO4 Apply genetic programming to real world problems

Course Name Pervasive ComputingOn successful completion of the course the students will be able to:

CO1 Outline the basic significances and performance requirements of pervasive computingCO2 Understand the basic pervasive computing elements and autonomic behavior of sensorsCO3 Examine and analyze various pervasive approaches and possible solutionsCO4 Design and develop diversified smart applications using pervasive computing techniques.

Course Name Machine Learning TechniquesOn successful completion of the course the students will be able to:

CO1 Distinguish between, supervised, unsupervised and semi-supervised learningCO2 Apply the suitable machine learning strategy to real-world applicationsCO3 Modify existing machine learning algorithms to improve classification efficiencyCO4 Design systems that uses the appropriate graph models of machine learning

Course Name APPLIED STATISTICS AND NUMERICAL METHODSOn successful completion of the course the students will be able to:

CO1 Understand the statistical measures, graphical representation, correlation & regression analysisCO2 Draw in ference and decision making through hypothesis testing

CO3 Appreciate numerical solutions for differential and integral calculus as a handy tool to solve problemsCourse Name ALGEBRA AND NUMBER THEORY

On successful completion of the course the students will be able to:CO1 apply the fundamental concepts of groups and ringsCO2 master the application of ring concepts to polynomials over finite fields

CO3understand and demonstrate the basic concepts of algorithms and their applications in number Theory

Course Name RESOURCE MANAGEMENT TECHNIQUESOn successful completion of the course the students will be able to:

CO1 Master the formulation of LPP to attain the optimal solution of real time problemsCO3 Expertise the PERT & CPM concepts which has a vital role in networking problems

Semester VIICourse Name MOBILE APPLICATION DEVELOPMENT LABORATORY

On successful completion of the course the students will be able to:CO1 Design and Implement various mobile applications using emulators

CO2 Deploy applications to hand-held devicesCO3 Develop an application using basic graphical primitives and databases

Course Name CLOUD COMPUTING LABORATORYOn successful completion of the course the students will be able to:

CO1 Develop and deploy cloud application using popular cloud platformsCO2 Explain and identify the techniques of hadoop cluster in cloud

CO3Design and develop highly scalable cloud-based applications by creating and configuring virtualmachines on the cloud

Course Name DATA WAREHOUSING AND DATA MININGOn successful completion of the course the students will be able to:

CO1 Discover and measure interesting patterns from different kinds of databasesCO2 Apply the technique of association finding to solve real life problemsCO3 Compare and contrast the various classifiersCO4 Able to explore recent trends in data mining and its applications.

Course Name MOBILE APPLICATION DEVELOPMENTOn successful completion of the course the students will be able to:

CO1 Familiarize with Mobile apps development aspectsCO2 Design and implement the user interfaces for mobile applicationsCO3 Develop useful mobile applications using Google Android and Eclipse simulator

Course Name CLOUD COMPUTINGOn successful completion of the course the students will be able to:

CO1Articulate the main concepts, key technologies, strengths and limitations of cloud compunting

CO2 Identify the architecture, infrastructure and delivery models of cloud computingCO3 Understand and apply Map and Reduce Programming

Course Name Cryptography and Security in ComputingOn successful completion of the course the students will be able to:

CO1 Apply Cryptographic Algorithms for Secure Data TransmissionCO2 Understand the Mathematical aspects behind SecurityCO3 Apply Key Management and Authentication Techniques to provide Secure CommunicationCO4 Understand the importance of Firewalls and Intrusion Detection System.

Course Name INTERNET OF THINGSOn successful completion of the course the students will be able to:

CO1 Compare and analyze different design issues and domains of IoTCO2 Identify different design methodologies and end point devices of IoT.CO3 Prepare different cloud based and embedded solution for IoT.CO4 Formulate different case studies related to IoT framework.

Course Name Agile Software DevelopmentOn successful completion of the course the students will be able to:

CO1 Understand Agile development using Test Driven DevelopmentCO2 Understand the Agile Scrum frameworkCO3 Perform testing activities within an Agile project

Course Name INFORMATION STORAGE MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Ability to identify the key requirements of data centerCO2 Analyze the different storage systems architectureCO3 Analyze different storage networking technologieCO4 Ability to identify and analyzes the common threats in different domains

Course Name ENTERPRISE RESOURCE PLANNINGOn successful completion of the course the students will be able to:

CO1 Comprehend the benefits of ERP, Business Process Reengineering and its relatedCO2 Understand various underlying factors governing the implementation of ERP systemCO3 Acquire knowledge about the Components of ERP market terminologies

Course Name XML & Web Services

On successful completion of the course the students will be able to:CO1 Assess and evaluate the role of XMLCO2 Understand architecting web servicesCO3 Deploy and publish web servicesCO4 Understand XML Security framework and XML Documents

Course Name Software Project ManagementOn successful completion of the course the students will be able to:

CO1 Understand about software EconomicsCO2 Analyzevarious software process modelsCO3 Acquire activity planning skillsCO4 Acquire knowledge in Risk evaluation and agile methodologies

Course Name AD HOC AND SENSOR NETWORKSOn successful completion of the course the students will be able to:

CO1 Explain the concepts, architecture and applications of Ad Hoc and WSN.CO2 Analyze the MAC protocol design concepts in Ad Hoc networksCO3 Design Ad Hoc routing protocols with respect to some protocol design issues

Course Name ENTERPRISE RESOURCEPLANNINGOn successful completion of the course the students will be able to:

CO1Comprehend the benefits of ERP, Business Process Reengineering and its related terminologies

CO2 Understand various underlying factors governing the implementation of ERP systemCO3 Acquire knowledge about the Components of ERP marketCO4 Understand and accommodate to the changing trends of ERP

Course Name System Modeling and SimulationOn successful completion of the course the students will be able to:

CO1 Classify various simulation models and give practical examples for each categoryCO2 Construct a model for a given set of data and motivate its validityCO3 Analyze output data produced by a model and test validity of the modelCO4 Explain parallel and distributed simulation methods

Semester VIIICourse Name Software Defined Networks

On successful completion of the course the students will be able to:CO1 Compare and contrast between traditional switch architecture and software defined networksCO2 Understand the functionality of Openflow protocol and SDN controllersCO3 Illustrate use of SDN in Data Centers and other environmentsCO4 Use software programs to perform varying and complex networking tasks

Course Name FOUNDATION SKILLS IN INTEGRATED PRODUCT DEVELOPMENTOn successful completion of the course the students will be able to:

CO1 Define, formulate and analyze a problemCO2 Solve specific problems independently or as part of a teamCO3 Work independently as well as in teams and can manage a project from start to finish

Course Name GREEN COMPUTINGOn successful completion of the course the students will be able to:

CO1Acquire knowledge to adopt green computing practices to minimize negative impacts on theenvironment

CO2 Enhance the skill management in Green business processCO3 Practice Green Information system in the modern SocietyCO4 Utilize and adopt green compliance in different environmental scenarios

Course Name SOCIAL NETWORK ANALYSISOn successful completion of the course the students will be able to:

CO1 Develop semantic web related applicationsCO2 Represent knowledge using ontologyCO3 Predict human behavior in social web and related communitiesCO4 Visualize social networks

Course Name Cyber Forensics and Ethical HackingOn successful completion of the course the students will be able to:

CO1 Analyze the role of forensics in preventing various forms of fraudCO2 Examine digital evidences such as the data acquisition, identification analysisCO3 Analyze and validate forensic dataCO4 Protect personal data, Secure computer networks and know safe internet usage

Course Name SOFTWARE QUALITY AND TESTINGOn successful completion of the course the students will be able to:

CO1 Analyze software documentations using inspections and walkthroughCO2 Associate various software metrics to estimate the software costCO3 Apply various testing strategies to test and manage software

Course Name KNOWLEDGE MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Learn the Evolution of Knowledge managementCO2 Apply knowledge management models and technologies to business situationsCO3 Explore various knowledge management toolsCO4 Exposed to various fields of applications

Course Name Information Retrieval TechniquesOn successful completion of the course the students will be able to:

CO1 Build an Information Retrieval System using the available ToolsCO2 Identify and Design the various components of an Information Retrieval SystemCO3 Design an efficient Search Engine and Analyze the Web content Structure

Course Name WEB DESIGN AND MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Identify the various issues of web design process and evaluationCO2 Determine templates for web pages and layoutCO3 Develop simple web applications using scripting languagesCO4 Determine the various issues of web project development

Program Name B.E. (ELECTRONICS & COMMUNICATION ENGINEERING)Semester I

Course Name Technical English - IOn successful completion of the course the students will be able to:

CO1The ability to comprehend facets of grammar, wide range of vocabulary so as to be equipped to presentopinions and ideas in a convincing manner

CO2The ability to be proactively read, listen, speak and present facts in a persuasive manner in both oraland written medium.

CO3 The ability to interact, translate and delegate informationCourse Name Engineering Mathematics-I

On successful completion of the course the students will be able to:CO1 Developing the knowledge of basic linear algebraic concepts



Course Name Engineering PhysicsOn successful completion of the course the students will be able to:

CO1To understand properties of solids with different types of moduli and to gain knowledge aboutabsorption coefficients of solids and different surfaces

CO2To understand basic concepts of high frequency sound waves and its applications and also quantummechanical behaviour of wave and particle along with applications

CO3To understand the concepts of production of laser and its behaviour with diffraction principle ofinterference and polarization phenomenon and thereby its applications in fiber optic communication

Course Name Engineering Chemistry

On successful completion of the course the students will be able to:CO1 Understanding the concepts of electrochemistry and Energy storage devicesCO2 Understanding the chemistry of CorrosionCO3 Applying the basic concepts of thermodynamics for engineering stream

Course Name Fundamentals of Computing & C ProgrammingOn successful completion of the course the students will be able to:

CO1 Able to acquire knowledge in Computer, Internet basics and problem solving methods.CO2 Able to understand and implement the programs in C using arrays, functions and structures.CO3 Able to design and develop applications using pointer concepts and file handling mechanism

Course Name Electron DevicesOn successful completion of the course the students will be able to:

CO1 Emphasis knowledge on construction, characteristics of various devices

CO2Gain adequate knowledge for modeling practical circuits using in the field of P-N junction diode,transistors, Field Effect transistor

CO3 Understanding the circuit design of Different oscillator circuitsCourse Name Introduction to Biomedical Engineering

On successful completion of the course the students will be able to:CO1 The ability to understand the role of Biomedical EngineersCO2 The ability to know the fundamentals of diagnostic devicesCO3 The ability to know the principles of radiological equipments

Course Name Basic Electrical and Electronics EngineeringOn successful completion of the course the students will be able to:


CO2 Emphasis knowledge on construction, characteristics of various devices.CO3 Acquire a good understanding of basics of electrical machines

Course Name Basics of Civil and Mechanical EngineeringOn successful completion of the course the students will be able to:

CO1An ability to know the various types of bridges and dams and to have knowledge on basics of interiordesign and landscape.

CO2 An ability to learn the manufacturing processes like foundry, welding and forging.CO3 An ability to explain the components of Refrigeration and Air conditioning cycle.

Course Name Engineering Physics LabOn successful completion of the course the students will be able to:

CO1Understanding the moduli of elasticity by determining Young’s modulus and Rigidity modulus of abeam and cylinder respectively


CO3Understanding the phenomenon of heat transfer through conductors and bad conductors by determiningthermal conductivity

Course Name Engineering Practices LaboratoryOn successful completion of the course the students will be able to:

CO1 Prepare the pipe connections and identify the various components used in plumbingCO2 Prepare simple Lap, Butt and T- joints using arc welding equipmentsCO3 Prepare simple wooden joints using wood working tools

Course Name Computer Practices LabOn successful completion of the course the students will be able to:

CO1 design presentation using MS-PowerPoint with animation effectsCO2 Write and compile programs using C- Language

CO3efficiently apply MS-Word and MS-Excel for creating document & spreadsheets forvariousapplications

Course Name Unix and Shell Programming LabOn successful completion of the course the students will be able to:

CO1 Work confidently in Unix/Linux environmentCO2 Write shell scripts to automate various tasks

CO3 Write shell scripts that use selection and loops.Course Name Cad & Modeling Laboratory

On successful completion of the course the students will be able to:CO1 Ability to use the software packers for drafting and modelingCO2 Ability to create 2D and 3D models of engineering componentsCO3 Students will be able to create simple sheet metal parts and generate unfolded views.

Course Name Electron Devices LabOn successful completion of the course the students will be able to:

CO1Select the suitable range of meters for the given circuit and set the appropriate values of circuitelements and energy sources as per the requirement

CO2 The student should be able to learn the characteristics of basic electronic devices.CO3 Ability to understand the practical application of various electronic circuits

Semester IICourse Name Technical English-II



CO3 The ability to interact, translate and delegate informationCourse Name Engineering Mathematics-II


CO1Determine the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields

CO2 Learn the basic concepts of analytic functions and transformations of complex functions.CO3 Master the integration in complex domain.

Course Name Applied PhysicsOn successful completion of the course the students will be able to:

CO1 Analyzing and identifying the crystal structure and lattice parameters in solid materials.

CO2Understanding the physical properties and concept of classical and quantum theories for electronbehaviour in conducting materials

CO3Determining the carrier concentration and electrical conductivity of intrinsic and extrinsicsemiconductors

Course Name Electric Circuits and Electron DevicesOn successful completion of the course the students will be able to:

CO1 Analyze the two port networks using different techniquesCO2 Compute transient response in RLC circuitsCO3 Describe the concept of intrinsic and extrinsic semiconductors and its characteristics

Course Name Essentials of Information TechnologyOn successful completion of the course the students will be able to:

CO1 Able to design and deploy web-sitesCO2 Able to design and deploy simple web-applicationsCO3 Able to create simple database applications

Course Name Biology for EngineersOn successful completion of the course the students will be able to:

CO1 Be familiar with the basic organization of organisms and subsequent building to a living beingCO2 Be Understand the concepts of biochemistry and molecular aspects of lifeCO3 Have knowledge about biological problems that require engineering expertise to solve them

Course Name Engineering Chemistry LabOn successful completion of the course the students will be able to:

CO1 Carry out the volumetric experiments and improve the analytical skills


CO3 Understand the principle and handling of electrochemical instruments and Spectrophotometer

Course Name Object Oriented Programming LabOn successful completion of the course the students will be able to:

CO1 Implement class, object, constructors concepts by using object oriented programming languageCO2 Designs, develop programs using inheritance and polymorphismCO3 Implement various file concepts, exception handling in object oriented programming

Course Name Electric Circuits LabOn successful completion of the course the students will be able to:

CO1Selecting the suitable range of meters and rheostats for the given circuit and set the appropriate valuesof circuit elements and energy sources as per the requirement.

CO2Applying basic circuital laws to confirm the practical values of the current through and voltage acrossdifferent elements of the circuit with that of the theoretical values

CO3 Applying theorems to simplify the electric circuitsCourse Name Circuits and Devices Lab

On successful completion of the course the students will be able to:CO1 Demonstrate the different Laws for Network circuitsCO2 Analyze various Theorems for Network circuitsCO3 Determine the frequency response of resonance circuits

Course Name Fundamentals of MATLABOn successful completion of the course the students will be able to:

CO1 Learn the MATLAB environment and its programming fundamentalsCO2 write Programs using commands and functionsCO3 Familiarize the Simulink environment

Course Name Basic Workshop Practices LabOn successful completion of the course the students will be able to:


CO2 An ability to prepare simple wooden joints using wood working tools.CO3 An ability to prepare simple lap, butt and tee joints using arc welding equipment’s.

Semester IIICourse Name Engineering Mathematics-III


CO2Applying Laplace transform techniques to solve ordinary differential equations which have anapplication in many engineering fields.

CO3Describing an oscillating function which appear in a variety of physical problems by Fourier serieshelps them to understand its basic nature deeply

Course Name Environmental Science and SustainabilityOn successful completion of the course the students will be able to:

CO1 Understand & appropriate the structure of ecosystem and its impact on environment.CO2 Protect the various natural resources and bio-diversityCO3 Recognize the environmental problems caused due to pollution

Course Name DATA Structures and Object Oriented Programming in C++On successful completion of the course the students will be able to:

CO1 Gain the basic knowledge on Object Oriented Programming.

CO2Develop Applications, and Implement Features of Object Oriented Programming to Solve Real WorldProblems

CO3 Implement various Abstract Data Types to Solve Real Times Problems by using Linear Data StructuresCourse Name Digital Electronics

On successful completion of the course the students will be able to:CO1 Solve and implement various Boolean expression with minimized logic gatesCO2 Implement the various combinational circuits for real time applicationsCO3 Design and analyze various sequential circuits like counters, registers, etc

Course Name Analog Electronics-I

On successful completion of the course the students will be able to:CO1 Recognize various biasing technique and compensation technique for transistorsCO2 Design small signal and large signal amplifiers using BJT for various applicationCO3 Design small signal amplifiers using FET and MOSFET

Course Name Electromagnetic FieldsOn successful completion of the course the students will be able to:

CO1 Evaluate the field potentials due to static chargesCO2 Explain the concepts of static magnetic fieldsCO3 Demonstrate how materials affect electric and magnetic fields

Course Name Data Structures and Object Oriented Programming in C++ LabOn successful completion of the course the students will be able to:

CO1 Implement basic and advanced concepts of Object Oriented Programming using C++

CO2 Apply Good Programming Design methods for Program Development using Object Oriented Concepts.CO3 Develop C++ programs for manipulating Stacks, Queues, Linked Lists

Course Name Digital Electronics LaboratoryOn successful completion of the course the students will be able to:

CO1 Apply Digital ICs for various applicationsCO2 Apply the Magnitude comparator using MSI deviceCO3 Apply the operation of Parity generator and checker using MSI device

Course Name Analog Electronics-I LaboratoryOn successful completion of the course the students will be able to:

CO1 Design power supply circuits for various applicationCO2 Calculate the gain of the amplifierCO3 Measure the Bandwidth of Darlington amplifiers

Semester IVCourse Name Probability and Random Processes


CO1Imbibe the knowledge of basic probability improves the quality of interpretation and decision makingin real time problems of uncertainty

CO2Learn the concept of two dimensional random variables helps to understand and analyse the statisticalmeasures which describe an outcome of a random experiment

CO3Understand and characterizing the random variable phenomenon which evolve with respect to time in aprobabilistic approach.

Course Name Signals and SystemsOn successful completion of the course the students will be able to:

CO1 Categorize the properties and representation of discrete and continuous time signals.CO2 Analyze the continuous time signal using Fourier and Laplace transformCO3 Determine total response, impulse response and frequency response of LTI-CT systems

Course Name Linear Integrated CircuitsOn successful completion of the course the students will be able to:

CO1 Explain the principle of operational amplifier and its characteristicsCO2 Demonstrate the various applications of operational amplifierCO3 Generalize the theory of phased lock loop and its characteristics

Course Name Analog Electronics - IIOn successful completion of the course the students will be able to:

CO1 Identify the various types of tuned amplifiersCO2 Interpret the operation of oscillators for different real time applicationsCO3 Demonstrate the concept of clampers, multivibrators and wave shaping circuits

Course Name Electrical Engineering and InstrumentationOn successful completion of the course the students will be able to:

CO1 Acquire a good understanding of basics of electrical machinesCO2 Emphasis knowledge in basic concepts of synchronous machinesCO3 Understanding the functions of transformer

Linear Integrated Circuits Laboratory

On successful completion of the course the students will be able to:CO1 Determine the Characteristics of op-ampCO2 Modify the op-amp circuits for various applicationsCO3 Extrapolate wave shaping circuits using op-amp

Analog Electronics - II LaboratoryOn successful completion of the course the students will be able to:

CO1 Measure the frequency response of Negative feedback amplifiers using discrete BJTCO2 Design an oscillator circuits using discrete BJTCO3 Construct the Wave Shaping Circuits using discrete BJT

Course Name Electrical Engineering LaboratoryOn successful completion of the course the students will be able to:

CO1 Calculation of EMF equation for the self-excited generatorsCO2 Ability to analyzing the various parameters of the motor and transformer.CO3 Ability to make measurements and interpret data on various bridges.

Course Name Industrial Electronics On successful completion of the course the students will be able to:

CO1 Explain the behavior of SCR and TRIAC circuitsCO2 Recognize the various Industrial Timing CircuitsCO3 Identify the thermal losses and Manipulate the Industrial Heating under RF

Course Name Consumer ElectronicsOn successful completion of the course the students will be able to:

CO1 Explain the concepts of audio system and processingCO2 Demonstrate the functions Telecommunication systemsCO3 Show the various commercial electronic applications

Course Name Green ElectronicsOn successful completion of the course the students will be able to:

CO1Recognize the importance of various environmental regulations in different major countries around theworld and the need for compliance with these regulations

CO2Describe the process ,design techniques , manufacturing of green electronics systems and assessment ofthe environmental hazards and suggest ways to reduce them.

CO3 Apply the principles and practices of green electronics in selected consumer products.Course Name Optoelectronic Devices

On successful completion of the course the students will be able to:CO1 Explain the Polarization, Interference and diffraction of lightCO2 Demonstrate the operation of LASER and various display devices

CO3 Describe the various optical detection devices like photo detector, thermal detector, photo diodes etc..,Course Name PCB Design

On successful completion of the course the students will be able to:CO1 Identify the defects in Plating and Etching processCO2 Manipulate various drawing and design rules in Layout planning and design of PCBCO3 Extrapolate the design rules for Analog and Digital circuits

Course Name Solid State DevicesOn successful completion of the course the students will be able to:

CO1 Describe the crystal structures of elements used for fabrication of semiconductor devices.

CO2 Explain the concept of fermi levels, movement of charge carriers, Diffusion current and Drift currentCO3 Describe the characteristics, operations of various MOSFET

Semester VCourse Name Communication Theory

On successful completion of the course the students will be able to:CO1 Understand the modulation and its significanceCO2 Analyze the different modulation systemsCO3 Understand the working principle of AM and FM transmitters and receivers

Course Name Digital Signal Processing

On successful completion of the course the students will be able to:CO1 Calculate the FFT of a discrete time signal.CO2 Demonstrate various FIR filter techniquesCO3 Demonstrate various IIR filter techniques

Course Name Microprocessors and MicrocontrollersOn successful completion of the course the students will be able to:

CO1 Recognize the basic microprocessor architecture and its concepts.CO2 Outline the concepts of peripheral interfacing mechanismsCO3 Design various assembly language programming using microprocessors and microcontroller

Course Name Computer Communication and NetworksCO1 On successful completion of the course the students will be able to:CO2 Implement the concept of various parameters in application layerCO3 Configure the various network layers and IP standards IPV4, IPV6

Implement various multiple access protocols point to point protocols and 802.11 standardsCourse Name Control Systems

On successful completion of the course the students will be able to:CO1 Understandthe basic concepts of open-loop and closed–loop of systemsCO2 Understand the basic concept of systems and to derive their transfer function models.CO3 Analyze the time-domain and frequency response of systems and steady state error analysis

Course Name Digital Signal Processing LaboratoryOn successful completion of the course the students will be able to:

CO1 Implement the signal processing techniques in time domain using MATLABCO2 Compute the signals in frequency domain using MATLABCO3 Manipulate the Audio signals using MATLAB

Course Name Microprocessors And Microcontrollers LaboratoryOn successful completion of the course the students will be able to:

CO1 Generate the code for arithmetic operations in assembly languageCO2 Generalize the developed code using 8085, 8086 processors and 8051 controllersCO3 Identify the bugs in the assembly code using 8085, 8086 processors and 8051 controllers

Course Name Computer Networks LaboratoryOn successful completion of the course the students will be able to:

CO1 Implement Error Detecting Codes, IP subnet, LAN protocolsCO2 Understand CSMA/CD Protocol, Token ring and Token Bus protocolsCO3 Understand various protocols in transport layer like stop and wait go-back-N, TCP etc

Course Name Biomedical InstrumentationOn successful completion of the course the students will be able to:

CO1 Understood the origin of biopotentials & different types of electrodes used in biopotential recording


CO3 Understood the need for bioamplifiers and different types of bioamplifiersCourse Name Transducer Engineering

On successful completion of the course the students will be able to:CO1 Understand the concept of the methods of measurements, Instrumentation and Calibration

CO2 Understandtheadequate knowledge of transducers for pressure, force and torque measurementCO3 Analyze the different active and passive transducer


CO1 Understand Basic operational concepts and design of ALU of Digital ComputerCO2 Design and analyze the performance of pipelined control unit.CO3 Perceive knowledge on Instruction Level Parallelism and Parallel Processing.


CO1 Determine the efficiency of CPU Scheduling Algorithms

CO2 Demonstrate and implement memory management, and paging techniques.

CO3 Able to illustrate I/O system, file system, Disk management functionalities in operating systems.Course Name Network Analysis and Synthesis

On successful completion of the course the students will be able to:CO1 Understanding network topologyCO2 Design k and m filters and exposure to synthesis techniques.CO3 Find network functions and two-port parameters.


CO1 Create a real-world application by applying the user defined packages, interfaces.CO2 Implement multithreading concepts in real time scenariosCO3 Design a GUI-based application using Applets &Swings

Semester VICourse Name Transmission Lines and Waveguides

On successful completion of the course the students will be able to:CO1 Discuss the propagation of signals through transmission linesCO2 Analyze signal propagation at radio frequenciesCO3 Elaborate the concept of waveguide mechanism.

Course Name VLSI DesignOn successful completion of the course the students will be able to:

CO1 Discuss the different design hierarchy of the CMOS circuitsCO2 Determine of the various characteristics of the MOS transistorCO3 Perform the testing and fault modeling in any design.

Course Name Digital CommunicationOn successful completion of the course the students will be able to:

CO1 Demonstrate of sampling and waveform coding related to digital hierarchyCO2 Implement the band limited signaling in the various digital transmissionsCO3 Analyze the BER for the different digital modulations.

Course Name Antenna and Wave PropagationOn successful completion of the course the students will be able to:

CO1 Identify the various antenna modules for Radio frequency communication systems.CO2 Identify the various antenna arrays patternsCO3 Compute the various radiation patterns for special antennas.

Course Name Digital Image ProcessingOn successful completion of the course the students will be able to:

CO1 Compute the mathematical transforms for images.CO2 Analyze Image by designing spatial and frequency domain filters.CO3 Explain the Image compression process

Course Name Advanced Digital Signal ProcessingOn successful completion of the course the students will be able to:

CO1 Analyze the signal parameters in time and frequency domainCO2 Compute statistical parameter of the signalCO3 Implement Sub-band coding for various Applications

Course Name Digital System Design using VHDLOn successful completion of the course the students will be able to:

CO1 Write programs for programmable Logic devicesCO2 Implement and realization of SM chartsCO3 Implement and realize digital design in FPGA

Course Name Information Theory and CodingOn successful completion of the course the students will be able to:

CO1 Acquire Knowledge in Information entropy, channel capacityCO2 Apply various source coding techniquesCO3 Implement various compression techniques in relevant application

Course Name Soft Computing and ApplicationsOn successful completion of the course the students will be able to:

CO1 Describe the concept of Conventional and Computational AI.CO2 Discuss the Genetic Algorithms and ApplicationCO3 Describe the Neural Networkconcepts

Course Name Speech ProcessingOn successful completion of the course the students will be able to:

CO1 Model speech signal digitallyCO2 Measure and analyze the parameters of speechCO3 Perform the various analytical methods in frequency domain

Course Name VLSI Design LaboratoryOn successful completion of the course the students will be able to:

CO1 Design and simulate various sequential and combinational logic circuits with VHDL programs.CO2 Design and implement the different adders and multipliers using FPGA kitCO3 Design CMOS circuits for the DC and transient analysis.

Course Name Analog and Digital Communication LaboratoryOn successful completion of the course the students will be able to:

CO1 Analyze the PLL characteristics and its applications.CO2 Understand the difference between the modulation and demodulation techniques.CO3 Implement various detection process of analog and digital communication.

Semester VIICourse Name RF System Design

On successful completion of the course the students will be able to:CO1 Describe the various passive and active components for radio frequency circuitCO2 Analyze the biasing methods for RF amplifiers.CO3 Analyze RF filters based on smith chart.

Course Name Optical CommunicationOn successful completion of the course the students will be able to:

CO1 Predict the different characteristics of the optical links.CO2 Detect signal loss while designing the transceivers.CO3 Justify the suitable receivers in the transceiver design.

Course Name Microwave EngineeringOn successful completion of the course the students will be able to:

CO1 Understand the effects of S- matrix in microwave networks.CO2 Acquired knowledge in klystron amplifiers and helix traveling wave tubesCO3 Ability to understand the operation and structure of IMPATT, TRAPATT, BARITT.

Course Name Embedded SystemsOn successful completion of the course the students will be able to:

CO1 Identify the basic concepts and architecture of the embedded systems.CO2 Summarize the various concepts of the RTOS and OS.CO3 Perform the design in various concepts for real time application models

Course Name Optical and Microwave LaboratoryOn successful completion of the course the students will be able to:

CO1 Analyze S parameter and VSWR measurements of microwave componentsCO2 Identify the Radiation pattern of Horn and reflector antennaCO3 Outline basic of light propagation and mode characteristics through optical Fiber

Course Name Electronic System Design LaboratoryOn successful completion of the course the students will be able to:

CO1 Recall the concept of regulator, SCR and timer circuit designs.CO2 Analyze various transducers interfacing with microprocessor.CO3 Devise modulation schemes using MATLAB

Course Name Engineering Ethics and Human ValuesOn successful completion of the course the students will be able to:

CO1 Extrapolate and make awareness on the morality, integrity, honesty and spirituality.

CO2 Professional reputation is witnessed due to the balanced outlook on law.CO3 Drive to be a moral leader with the analysis of the global issues in the engineering society.

Course Name Principles of ManagementOn successful completion of the course the students will be able to:

CO1 Categorize the development and types of business of organization.CO2 Demonstration of the various strategies for the planning and decision making.CO3 Integration of the innovative and creative objectives for job enrichment.

Course Name High Speed NetworksOn successful completion of the course the students will be able to:

CO1 Identify the standards of the ISDN, DSL and ADSL.CO2 Paraphrase the structure and protocol of the ISDN, ATM, MPLS, DSL and ADSL.CO3 Prepare the various networking applications.

Course Name Nano TechnologyOn successful completion of the course the students will be able to:

CO1 Describe the Nano materials for designing new applications.CO2 Design various applications with the knowledge in Nano interfaces.CO3 Design system with the updation of global issues.

Course Name Neural Networks and its ApplicationsOn successful completion of the course the students will be able to:

CO1 Understand the unsupervised learning networksCO2 Explain the thoughts of Fuzzy Logic applicationsCO3 Analysis the principles of associative memories and SOM

Course Name Optical NetworksOn successful completion of the course the students will be able to:

CO1 Apply the concepts of the optical networks and components.CO2 Analyze the single and multihop networks.CO3 Apply the concepts of routing and Multicasting.

Course Name Remote SensingOn successful completion of the course the students will be able to:

CO1 Extrapolate the interaction of electromagnetic radiation with atmospheric features.CO2 Demonstrate advanced knowledge of theory of remote sensing including sensor systems.CO3 Summarize optical and microwave remote sensing.

Course Name Wireless NetworksOn successful completion of the course the students will be able to:

CO1 Extrapolate Features and Challenges of 4G networks.CO2 Point out the Various wide area network concepts.CO3 Summarize the functions of Transport layer and its various protocols.

Course Name Telecommunication Switching NetworksOn successful completion of the course the students will be able to:

CO1 Implement the different multiplexing techniqueCO2 Synchronize, control and managing the NetworkCO3 Identify the different methods for subscriber access

Course Name Wireless CommunicationOn successful completion of the course the students will be able to:

CO1 Quote the characteristic of wireless channel.CO2 Recall the Various signaling schemes for fading channelsCO3 Extrapolate the multipath mitigation techniques and analyse their performance.

Course Name Advanced MicrocontrollersOn successful completion of the course the students will be able to:

CO1 Illustrate the MSP 430 Microcontroller architecture.CO2 Recognize various peripheral interface in MSP 430.CO3 Distinguish between RISC AND CISC processor architecture.

Course Name Detection and Estimation TheoryOn successful completion of the course the students will be able to:

CO1 Interpolate the meaning and method of hypothesis testing

CO2 Develop the principles of signal detection in relevant situationsCO3 Design the various algorithms to estimate random parameters of signals

Semester VIIICourse Name Disaster Mitigation and Management

On successful completion of the course the students will be able to:CO1 Create Awareness about disasterCO2 Analyse the measurement of earthquake occurencesCO3 Manage disaster risk reduction at the time of disaster

Course Name Cellular and Mobile CommunicationOn successful completion of the course the students will be able to:

CO1 Acquire knowledge in multiple access techniques and cellular conceptsCO2 Demonstrate the mobile propagating mechanismCO3 Acquire knowledge in modulation techniques and mobile antennas

Course Name Electromagnetic Interference and CompatibilityOn successful completion of the course the students will be able to:

CO1 Demonstration of noise coupling and eliminating interferences in EMI/EMC.CO2 Implementation of EMI control techniques such as grounding, shielding, filtering.CO3 Ability to understand the various properties of passive components.

Course Name ARM System Architecture and applicationsOn successful completion of the course the students will be able to:

CO1 Explain the architecture for high level languageCO2 Implement ARM in Embedded applicationsCO3 Explain the memory of ARM

Course Name Radar and Navigational AidsOn successful completion of the course the students will be able to:

CO1 Discuss the fundamentals of RADARCO2 Describe the types of RADARCO3 Explain the transceiver of RADAR

Course Name Statistical Signal ProcessingOn successful completion of the course the students will be able to:

CO1 Describe the concepts of random signal processingCO2 Analyze the methods of PredictionCO3 Illustrate about adaptive filters and their applications

Course Name Parallel and Distributed ProcessingOn successful completion of the course the students will be able to:

CO1Articulate the principles and standard practices underlying the design of distributed and parallelsystems.

CO2 Explain the core issues of distributed and parallel systems.

CO3Have knowledge on the substantial difficulty in designing parallel and distributed algorithms incomparison to centralized algorithms

Course Name Wavelets and its applicationsOn successful completion of the course the students will be able to:

CO1 Gain knowledge about MRA and representation using wavelet basesCO2 Apply wavelet transform for various signal & image processing applicationsCO3 Generate the different family of wavelets for real-time

Course Name ASIC DesignOn successful completion of the course the students will be able to:

CO1 Co1 Acquire knowledge in various physical design in ASIC.CO2 Understand the concept of ASIC Logic Cells and ASIC I/O Cells.CO3 Use the simulation techniques at various levels in ASIC design flow

Course Name Satellite CommunicationOn successful completion of the course the students will be able to:

CO1 Analyze different orbital elementsCO2 Understand different applications of SatelliteCO3 Describe the various types of Earth Segments

Course Name Microwave Integrated Circuits DesignOn successful completion of the course the students will be able to:

CO1 Realize the couplers and microstrip linesCO2 Examine the oscillation and stability conditions of different Microwave oscillatorsCO3 Analyze the various amplifiers parameters like power gain, stability issues for MICs

Course Name Low Power VLSI DesignOn successful completion of the course the students will be able to:

CO1 Analyze the power dissipation in various CMOS circuitsCO2 Outline the mechanisms of power dissipation in CMOS integrated circuitsCO3 Estimate power analysis of low power combinational circuits and sequential circuits

Course Name Advanced Wireless CommunicationOn successful completion of the course the students will be able to:

CO1Implement new techniques and demonstrate their feasibility using mathematical validations andsimulation tools

CO2 Design the wireless communication channelsCO3 Select the optimal access for layered space time codes

Program Name B.E. (ELECTRICAL AND ELECTRONICS ENGINEERING)Semester I


CO1The ability to comprehend facets of grammar, wide range of vocabulary so as to be equipped to presentopinions and ideas in a convincing manner.

CO2The ability to be proactively read, listen, speak and present facts in a persuasive manner in both oraland written medium.

CO3 The ability to interact, translate and delegate information.CO4 The ability to carry out extempore discussions, document and elucidate ideas.








CO2To understand basic concepts of high frequency sound waves and its applications and also quantummechanical behaviour of wave and particle along with applications.

CO3

To understand the concepts of production of laser and its behaviour with diffraction principle ofinterference and polarization phenomenon and thereby its applications in fiber optic communication.



Course Name ELECTRON DEVICESOn successful completion of the course the students will be able to:

CO1 Emphasis knowledge on construction, characteristics of various devices.

CO2Gain adequate knowledge for modeling practical circuits using in the field of P-N junction diode,transistors, Field Effect transistor.

CO3 Understanding the circuit design ofCO4 Different oscillator circuits.


CO1 Able to acquire knowledge in Computer, Internet basics and problem solving methods.CO2 Able to understand and implement the programs in C using arrays, functions and structures.CO3 Able to design and develop applications using pointer concepts and file handling


CO1 The ability to understand the role of Biomedical EngineersCO2 The ability to know the fundamentals of diagnostic devicesCO3 The ability to know the principles of radiological equipmentsCO4 The ability to know the fundamentals of therapeutic equipmentsCO5 The ability to know about various type of analyzers

Course Name BASIC ELECTRICAL AND ELECTRONICS ENGINEERINGOn successful completion of the course the students will be able to:


CO2 Acquire a good understanding of basics of electrical machinesCO3 Emphasis knowledge on construction, characteristics of various devices.

CO4Emphasis knowledge on fundamental concept of decimal number system and represent number systemin powers of base

Course Name BASICS OF CIVIL AND MECHANICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 An ability to know the various types of bridges and dams and to have knowledge onCO2 basics of interior design and landscape.CO3 An ability to learn the manufacturing processes like foundry, welding and forging.


CO1 Understanding the moduli of elasticity by determining Young’s modulus andCO2 Rigidity modulus of a beam and cylinder respectively

CO3Understanding the phenomenon of diffraction, dispersion and interference of light using opticalcomponents


Course Name ENGINEERING PRACTICES LABORATORYOn successful completion of the course the students will be able to:

CO1 Prepare simple Lap, Butt and T- joints using arc welding equipments.CO2 Prepare the pipe connections and identify the various components used in plumbing.CO3 Prepare simple wooden joints using wood working tools.CO4 Demonstrate basic electrical, electronic and computer components based on their


CO1efficiently apply MS-Word and MS-Excel for creating document & spreadsheets for variousapplications

CO2 design presentation using MS-PowerPoint with animation effects.CO3 Write and compile programs using C-Language.CO4 Develop programs in C for any computing problems

Course Name UNIX AND SHELL PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Work confidently in Unix/Linux environmentCO2 Write shell scripts to automate various tasks

CO3 use the basics of linux administration CommandsCO4 Write shell scripts that use selection and loops.


CO1 Ability to use the software packers for drafting and modeling.CO2 Ability to create 2D and 3D models of engineering componentsCO3 Students will be able to create simple sheet metal parts and generate unfolded views.

Course Name ELECTRON DEVICES LABOn successful completion of the course the students will be able to:

CO1Select the suitable range of meters for the given circuit and set the appropriate values of circuitelements and energy sources as per the requirement.

CO2 The student should be able to learn the characteristics of basic electronic devices.CO3 Ability to understand the practical application of various electronic circuits.CO4 Ability to understand the practical application of amplifiers and oscillators.







CO1Determine the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields.

CO2 Learn the basic concepts of analytic functions and transformations of complex functions.CO3 Master the integration in complex domain.CO4 Understand the use of improper integrals’ applications in the core subject.



CO2Understanding the physical properties and concept of classical and quantum theories for electronbehaviour in conducting materials

CO3Determining the carrier concentration and electrical conductivity of intrinsic and extrinsicsemiconductors.

CO4Understanding the various polarization mechanisms in dielectrics and the techniques to manufacturenano materials for engineering applications.

CO5Acquiring the knowledge about nuclear physics in energy production and the phenomenon of thermalconductivity through different media of materials.


CO1 Acquire the deep knowledge on Object Oriented Programming concepts.CO2 Develop solutions for given problems using class object concepts.CO3 Make use of Polymorphism and Inheritance concepts to solve real world problems.CO4 Understand the usage of virtual functions and templates in various applications.CO5 Develop and implement File I/O Operations and Exception handling mechanisms.


CO1 Analyze the two port networks using different techniquesCO2 Compute transient response in RLC circuitsCO3 Describe the concept of intrinsic and extrinsic semiconductors and its characteristicsCO4 Explain the concept of transistor configurations and their applications

CO5 Recognize the various forms of semiconductors devices and their characteristicsCourse Name ESSENTIALS OF INFORMATION TECHNOLOGY

On successful completion of the course the students will be able to:CO1 Able to design and deploy web-sitesCO2 Able to design and deploy simple web-applicationsCO3 Able to create simple database applicationsCO4 Able to develop information systemCO5 Able to describe the basics of networking and mobile communications

Course Name BIOLOGY FOR ENGINEERSOn successful completion of the course the students will be able to:

CO1Be familiar with the basic organization of organisms and subsequent building to a living being

CO2 Be Understand the concepts of biochemistry and molecular aspects of life

CO3Be Understand the machinery of the cell functions that is ultimately responsible for various dailyactivities

CO4 Have knowledge about biological problems that require engineering expertise to solve them.Course Name ENGINEERING CHEMISTRY LAB

On successful completion of the course the students will be able to:CO1 Carry out the volumetric experiments and improve the analytical skills.





CO1Implement class, object, constructors concepts by using object oriented programming language

CO2 Designs, develop programs using inheritance and polymorphismCO3 Implement various file concepts, exception handling in object oriented programming.CO4 Construct generic classes using templates.



CO2Applying basic circuital laws to confirm the practical values of the current through and voltage acrossdifferent elements of the circuit with that of the theoretical values.

CO3 Applying theorems to simplify the electric circuits.CO4 Illustrating the transient response and frequency response of RLC circuits

Course Name CIRCUIT AND DEVICES LABOn successful completion of the course the students will be able to:

CO1 Demonstrate the different Laws for Network circuitsCO2 Analyze various Theorems for Network circuitsCO3 Determine the frequency response of resonance circuitsCO4 Compute the characteristics of various semiconductor devices

Course Name FUNDAMENTALS OF MAT LABOn successful completion of the course the students will be able to:

CO1 Learn the MATLAB environment and its programming fundamentalsCO2 write Programs using commands and functionsCO3 Handle polynomials, and use 2D Graphic commandsCO4 Familiarize the Simulink environment.CO5 Study Mat lab toolboxes.

Course Name BASIC WORKSHOP PRACTICES LAB



CO2 An ability to prepare simple wooden joints using wood working tools.CO3 An ability to prepare simple lap, butt and tee joints using arc welding equipment’s.CO4 Able to demonstrate the preparation of simple components using lathe and drilling machine.CO5 Able to demonstrate the forging operations and preparation of sand mould.

Semester IIICourse Name ENGINEERING MATHEMATICS III



CO3

Describing an oscillating function which appear in a variety of physical problems by Fourier serieshelps them to understand its basic nature deeply. Acquiring the knowledge to construct partialdifferential equations for various physical and engineering real time problems and obtaining solutionusing Fourier series methods.

CO4 Understanding the effect of Fourier transform techniques and their applications.Course Name ENVIRONMENTAL SCIENCE AND SUSTAINABILITY

On successful completion of the course the students will be able to:CO1 To understand & appropriate the structure of ecosystem and its impact on environment.CO2 To understand the various natural resources and biodiversityCO3 To recognize the environmental problems caused due to pollution.CO4 To understand the concept of sustainable development

Course Name NETWORK ANALYSIS AND SYNTHESISOn successful completion of the course the students will be able to:

CO1 Gained the knowledge of network topology.CO2 Learnt about apply Fourier transforms to analyze electrical networks.CO3 Learnt network functions and two-port parameters.CO4 Able to design k and m filters and exposure to synthesis techniques.

Course Name ELECTROMAGNETIC THEORYOn successful completion of the course the students will be able to:

CO1 Learnt mathematical operations related to fields and laws related to electrostatic fields.CO2 Gained the knowledge of Poisson’s and Laplace’s equationsCO3 Acquired the knowledge of Biot-Savart’s Law and Ampere’s Circuital law.

CO4Gained the understanding of the Maxwell’s equations and principles of propagation of uniform planewaves

Course Name LINEAR INTEGRATED CIRCUITS AND APPLICATIONSOn successful completion of the course the students will be able to:

CO1 Obtained the knowledge of ICs and their applicationsCO2 Ability to fabricate and design the circuits using ICs.CO3 Able to analyze and describe the characteristics of Op amps.CO4 Learnt about Timers, PLL circuits and regulator Circuits

Course Name MEASUREMENTS AND INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Learnt the concept of instrumentation system.CO2 Obtained knowledge of operation of instruments, relevant circuits and working

CO3Gained the knowledge of analog and digital techniques to measure voltage, current, energy and power.

CO4 Understood about storage, display devices and various transducers.Course Name BIO MEDICAL INSTRUMENTATION

On successful completion of the course the students will be able to:CO1 Understood the physiological parameters of various systems of human body.

CO2Recognized and learnt about the transducers used for the measurement of physiological parameters.

CO3 Acquired knowledge of different types of lead systems to record the waveforms.CO4 Able to demonstrate the usage of assisting and therapeutic equipment

Course Name ELECTRONIC INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1Learnt the concepts of moving coil and moving iron meters, various types of bridges and transducers

CO2 Obtained knowledge of Function generators and Storage oscilloscopesCO3 Gained the knowledge of digital data acquisition systemCO4 Understood about virtual instrumentation and Lab view software

Course Name ELECTRICAL AND ELECTRONIC INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Learnt the concepts of moving coil and moving iron meters.CO2 Gained knowledge of different bridge circuits.CO3 Obtained knowledge of Function generators and Storage oscilloscopes.CO4 Understood about various recording devices and analyzers.

Course Name LINEAR INTEGRATED CIRCUITS LABOn successful completion of the course the students will be able to:

CO1 Learnt about the characteristics of op-ampCO2 Gained the knowledge to analyze basic applications using op-amps.CO3 Acquired knowledge to design power supply and multi-vibrator circuits.CO4 Obtained knowledge to design and construct waveform generators

Course Name ELECTRICAL AND ELECTRONICS CIRCUITS SIMULATION LABOn successful completion of the course the students will be able to:

CO1 Learnt about the basics of simulation software.CO2 Gained the knowledge to simulate and to analyze the characteristics of amplifier circuits.CO3 Acquired knowledge to simulate filter circuits.CO4 Obtained knowledge to simulate and test the various oscillators.

Course Name MEASUREMENTS AND INSTRUMENTATION LABOn successful completion of the course the students will be able to:

CO1 Gained knowledge to measure displacement, resistance, inductance and capacitanceCO2 Learnt about A/D and D/A converters.CO3 Acquired knowledge to calibrate single-phase energy meterCO4 Understood measurement of three phase power and power factor



CO1Apply numerical methods such as direct iterative and interpolation to solve algebraic or transcendentalequations and system of equations.

CO2Appreciate numerical solutions for differential and integral calculus as a handy tool to solve problems.

CO3Implement numerical algorithms to find solutions for initial value problems for ordinary differentialequations.

CO4Demonstrate algorithms using finite differences to obtain solutions to boundary value problems

Course Name CONTROL SYSTEMSOn successful completion of the course the students will be able to:

CO1 Ability to Understand the basic concepts of open-loop and closed–loop of systems

CO2Ability to understand the basic concept of systems and to derive their transfer function models.

CO3Analyzing the time-domain and frequency response of systems and steady state error analysis

CO4 Ability to analyze the concept of stability of control systems and design compensator.

Course Name DIGITAL ELECTRONIC CIRCUITSOn successful completion of the course the students will be able to:

CO1 Gained the knowledge of fundamental concept of various number systems

CO2Ability to Implement simple combinational logic circuits using logic gates, multiplexers and decoders.

CO3 Able to design of various synchronous sequential circuits.CO4 Able to design of various asynchronous sequential circuitsCO5 Understood about semiconductor memories, PLDs and digital logic families.

Course Name POWER GENERATION SYSTEMSOn successful completion of the course the students will be able to:

CO1

Understanding the working of steam and gas power plant thermal power station (TPS) using singleline diagram and state the functions of the major equipment and auxiliaries of a Steam power plant.

CO2Understanding the working of hydro energy conversion process with block diagrams and identify theappropriate site for it.

CO3 Understanding the working of Nuclear and Diesel power stationCO4 Understanding the various components of Wind Energy Conversion system and solar plants

Course Name ELECTRICAL MACHINES –IOn successful completion of the course the students will be able to:

CO1Learning the basic concepts of rotating machines and electromechanical energy conversion systems.

CO2Learning the working principles, performance, as well as to identify, formulate and solve machinerelated problems on DC Generators.

CO3Learning the working principles, performance, testing , speed control and solve machine relatedproblems on DC Motors.

CO4 Understood the functions of transformer and autotransformer.Course Name OBJECT ORIENTED PROGRAMMING AND DATA STRUCTURES

On successful completion of the course the students will be able to:CO1 Understand the fundamentals of object-oriented programming concepts, particularly in C++.CO2 Design applications using inheritance and polymorphismCO3 Apply object oriented programming concepts to implement Linear Data Structures.

CO4Implement Non-linear Data Structures using C++ and design applications using sorting and searchingtechniques

Course Name DATA STRUCTURES AND ALGORITHMSOn successful completion of the course the students will be able to:

CO1 Identify an appropriate data structures for a given problem.CO2 Implement the different Hashing, searching and sorting techniques.CO3 Enhance the capability in complexity analysis.CO4 Apply various algorithm design techniques for a given problem.

Course Name JAVA PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Create a real-world application by applying the user defined packages, interfaces.CO2 Implement multithreading concepts in real time scenarios.CO3 Design a GUI-based application using Applets &Swings.CO4 Understand the usage of Utility & Generic Classes.

Course Name C# & .NET PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Understand anatomy of C# Programming.CO2 Develop Console application using object oriented concepts, advanced features in C#.CO3 Develop Applications using Interfaces and Events.

CO4Develop Window form application with Database connectivity and build Applications usingADO.NETAND ASP.NET.

Course Name CONTROL SYSTEMS LABORATORYOn successful completion of the course the students will be able to:

CO1 Analyzing the Transfer function of separately excited DC generators.CO2 Analyzing and Transfer function of self-excited DC generators.CO3 Able to analyzing speed of DC motor.CO4 Understanding the various position control systems.

Course Name ELECTRICAL MACHINES LABORATORY – IOn successful completion of the course the students will be able to:

CO1 Analyzing the characteristics of DC generators.CO2 Analyzing and test of different DC motors.CO3 Able to analyze speed and efficiency of DC machines.CO4 Understood the various tests on transformers.

Course Name DATA STRUCTURES AND OOPS LABOn successful completion of the course the students will be able to:

CO1 Develop programs using oops concept.CO2 Design and implement C++ programs for manipulating stacks, queues, linked lists.CO3 Apply the different data structures for implementing solutions to practical problems

CO4Demonstrate the Infix. Prefix and Postfix notations and sorting techniques using C++ programs.

Course Name JAVA PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1Write a programs that use the fundamental program constructs, including packages & interfaces

CO2 Create &access database connection and handling exceptions.CO3 Design a GUI-based event handling application using Applets &Swings.CO4 Understand the I/O functionality to read & write in the files.

Course Name C# & .NET PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Develop application using the features of C#.CO2 Develop GUI application using interfaces, delegates and events.CO3 Build window form application with database connectivity.CO4 Solve the real world problems using C#.

Semester VCourse Name MICROPROCESSORS AND MICROCONTROLLERS


CO1Ability to understand the architecture of any advanced Processor to be in pace with technologicalchallenges.

CO2Apply the acquired Programming skills and relate to any Processor/microcontroller in amultidisciplinary.

CO3Able to utilize the IT tools like TASM, MASM and Proteus to develop electronic prototyping andthereby establishing real time control.

CO4Ability to develop/design microcontroller based system paving way for automation and continuousDevelopment.

Course Name ELECTRICAL MACHINES – IIOn successful completion of the course the students will be able to:

CO1 Constructional details, principles of operation, performance of AlternatorsCO2 Ability to calculate torque, starting methods of AC motorCO3 Employ different starting and speed control methods to three phase induction motors.CO4 Emphasis knowledge in basic concepts and principles of special machines.

Course Name ADVANCED CONTROL THEORYOn successful completion of the course the students will be able to:

CO1 Identify state variables and poles to find the stability of non-linear system.

CO2Ability to formulate differential equation, Z-transform, Z-transfer function And evaluate the Sampledata control systems.

CO3 Identify the analysis of discrete time systems using conventional techniques.CO4 Analyze optimal control theory and design.

Course Name PROTECTION AND SWITCHGEAROn successful completion of the course the students will be able to:

CO1 Knowledgeable in the field of power system protection and switchgear.

CO2Ability to demonstrate and design the relevant protection systems for the elements in power systems.

CO3 Emphasis knowledge in the field of over voltages.CO4 Implement the theory of circuit breakers in power system network.

Course Name TRANSMISSION AND DISTRIBUTIONOn successful completion of the course the students will be able to:

CO1 Understood the difference between the higher capacity AC and DC Lines.CO2 Ability to compare the different types of conductors and characteristicsCO3 Identify the transmission line systems for various ranges.CO4 Gained the knowledge of the cables, the insulators and study of distribution system.

Course Name COMMUNICATION THEORYOn successful completion of the course the students will be able to:

CO1 Understand the modulation and its significanceCO2 Analyze the different modulation systemsCO3 Understand the working principle of AM and FM transmitters and receivers.

CO4Understand the frequency characteristics of noise and Calculate and analyze noise performance invarious receivers.

Course Name COMPUTER NETWORKSOn successful completion of the course the students will be able to:

CO1Gain extensive knowledge on networks, role of each network layers, transmission medias and networkcomponents

CO2Apply various routing algorithms over a network to provide optimal, error free transmission of datausing error detection and correction techniques.


Course Name COMPUTER ORGANIZATION AND ARCHITECTUREOn successful completion of the course the students will be able to:

CO1 Understand Basic operational concepts and design of ALU of Digital Computer.CO2 Design and analyze the performance of pipelined control unit.CO3 Understand memory hierarchy and I/O Organization.CO4 Perceive knowledge on Instruction Level Parallelism and Parallel Processing.


CO1 Categorize the properties and representation of discrete and continuous time signals.CO2 Analyze the continuous time signal using Fourier and Laplace transform.CO3 Determine total response, impulse response and frequency response of LTI-CT Systems.

CO4Analyze the discrete time signals using Discrete Time Fourier Transforms and Z transform andDetermine total response, impulse response and frequency response of LTI-DT systems.

Course Name ELECTRICAL MACHINES LABORATORY – IIOn successful completion of the course the students will be able to:

CO1 Ability to interpret and connect circuits of synchronous generators and motors.

CO2Develops a knowledge and ability to analyze and specify motors for use in varying applications.

CO3Gaining practical experience in starting, speed control and testing of three-phase induction motors.

CO4 Interpret the performance of single phase induction motor.Course Name MICROPROCESSORS AND MICROCONTROLLERS LABORATORY

On successful completion of the course the students will be able to:CO1 Develop the code for simple arithmetic circuits in assembly language.CO2 Implement the developed code using 8085 processors and 8051 controllers.

CO3 Interface the peripherals with microprocessor and micro controller.Course Name DIGITAL ELECTRONICS LABORATORY

On successful completion of the course the students will be able to:CO1 Verification of digital logic circuits using digital IC’sCO2 Simplification of Boolean function and implementing those circuits practically.CO3 Implementation of different combinational logic circuits using logic gates.CO4 Implementation of synchronous and asynchronous sequential logic circuits using digital ICs

Semester VICourse Name ELECTRICAL MACHINE DESIGN

On successful completion of the course the students will be able to:CO1 Gain knowledge in the design procedures of various electrical machines.

CO2Apply the concept of specific electric and magnetic loadings for the armature design of rotatingmachine.

CO3 Gain knowledge in design of various parameters of DC motors and transformers.CO4 Gain knowledge in design of various parameters of AC machines.

Course Name POWER ELECTRONICSOn successful completion of the course the students will be able to:

CO1 Gain knowledge on principles of operation on power semiconductor devices.CO2 Understand the function of single phase and three phase converters.CO3 Recognize the operation of inverters and cycloconverters.CO4 Apply Power Electronics in utility-related applications.

Course Name POWER SYSTEM ANALYSIS AND STABILITYOn successful completion of the course the students will be able to:

CO1 Develop the knowledge about power System under steady state operating condition.CO2 To apply efficient numerical methods to solve the power flow problem.CO3 Understand the analysis of power systems under abnormal (or) fault conditions.CO4 Analyze the transient behavior of power system when it is subjected to a fault.

Course Name HIGH VOLTAGE ENGINEERINGOn successful completion of the course the students will be able to:

CO1Gain knowledge in the fundamental concept of electric breakdown in liquids, solids and gases.

CO2 Extrapolate the production of various types of high voltages.CO3 Familiar in non-destructive test techniques in high voltage engineering.CO4 Outline the Indian and international standards for high voltage equipment testing.

Course Name INDUSTRIAL AUTOMATIONOn successful completion of the course the students will be able to:

CO1 Understand the concept of sensors and actuatorsCO2 Emphasis knowledge in basic concepts and principles of automotive system and controlCO3 Understand the concept of automotive instrumentation

CO4Understand the concept of the building automation and advances in automotive electronic systems.

Course Name ADVANCED MICROPROCESSOROn successful completion of the course the students will be able to:

CO1 Ability to understand the microprocessor and its architecture with technological challengesCO2 Understand the concept of 8086 hardware specifications and address decoding

CO3Understand concept of the basic block diagram and features of 80186,80188 AND 80286microprocessors

CO4Elaborate knowledge about THE 80386 AND 80486 microprocessor and basic interrupt processing.

Course Name DIGITAL SIGNAL PROCESSINGOn successful completion of the course the students will be able to:

CO1 Formulate engineering problems in terms of DSP tasks.CO2 Design and test DSP algorithms. Analyze digital and analog signals and systemsCO3 Analyze and compare different signal processing strategies.

CO4 Design IIR and FIR digital filters using digital techniquesCourse Name ADVANCED POWER SEMICONDUCTOR DEVICES

On successful completion of the course the students will be able to:CO1 Gained the knowledge of the power diodes and its typesCO2 Constructional details, static and switching characteristics of current controlled devicesCO3 Constructional details, static and dynamic model of voltage controlled devicesCO4 Elaborate knowledge about firing, protecting circuits and thermal protection

Course Name ELECTRICAL SAFETY,OPERATION AND REGULATIONOn successful completion of the course the students will be able to:

CO1 Understand concept and statutory requirementsCO2 Elaborate knowledge about electrical hazardsCO3 Gained the knowledge of protection systemCO4 Understand selection, installation, operation and maintenance, hazardous zones.

Course Name INDUSTRIAL ELECTRICAL SYSTEMSOn successful completion of the course the students will be able to:

CO1 Students able to understand the starting methods of induction motor with CAD analysis.CO2 Students able to know the knowledge of power factor corrections.CO3 Students able to explain the harmonic analysis and response.CO4 Students able to analyze the effects of flicker and ground grid analysis.

Course Name ELECTRICAL ENGINEERING MATERIALSOn successful completion of the course the students will be able to:

CO1 Students able to understand the types and properties of conducting materials.CO2 Students able to differentiate the properties of semiconductors and dielectric insulations.CO3 Students able to explain the application of Piezo electric materials.CO4 Students able to use the materials for special applications.

Course Name EMBEDDED SYSTEMOn successful completion of the course the students will be able to:

CO1 Students able to understand the concept of embedded systemsCO2 Students able to interface the embedded networking with the communication protocols.CO3 Students able to design the embedded systems.CO4 Students able to model the application using embedded concept

Course Name POWER ELECTRONICS LABORATORYOn successful completion of the course the students will be able to:

CO1 Ability to describe about modern power semiconductors and their control.

CO2Measure and experimentally quantify steady state and transient characteristics of power converters.

CO3 Design and build complete converters, choppers and inverters.CO4 Obtain the variable output voltage using AC voltage controller.

Course Name EMPLOYABILITY SKILLS LABORATORYOn successful completion of the course the students will be able to:

CO1Enhancing the employability skills of students with a special focus on Presentation skills, Groupdiscussion skills and Interview skills

CO2 Improving their soft skills, including report writing, necessary for the workplace situationsCO3 Creating effective PPTs and presenting the visuals effectively

CO4Writing Project proposals – collecting, analyzing and interpreting data / drafting the final report

Course Name ELECTRONIC SYSTEM DESIGN LABORATORYOn successful completion of the course the students will be able to:

CO1 Able to design power supply units.CO2 Able to design driver circuit for relay.CO3 Able to design and fabricate opto-coupler and timer IC based circuits.CO4 Capable of designing domestic Kits for different applications.

Semester VIICourse Name DISASTER MANAGEMENT

On successful completion of the course the students will be able to:CO1 Aware of various natural and men- made disasters.CO2 Preparedness for facing disasters.CO3 Usage of modern technology and tools in risk reduction.CO4 Develop the ability of Planning in emergency situations.

Course Name POWER SYSTEM OPERATION AND CONTROLOn successful completion of the course the students will be able to:

CO1 Gained knowledge about Outline of planning and control of power system.

CO2Develop the mathematical model of single area and two area load frequency control for static anddynamic analysis.

CO3 Determine the economic dispatch of the generating units with loss and without loss case.CO4 Got Used to SCADA and EMS for monitor and controlling the power system.

Course Name ELECTRIC DRIVES AND CONTROLOn successful completion of the course the students will be able to:

CO1 Understood the steady-state operation and transient dynamics of a motor-load system.CO2 Learnt about steady state behavior of converter fed DC drive.CO3 Gained knowledge in speed control of AC motor drives.

CO4Gained knowledge regarding relevant drive system for a given application with given specifications.

Course Name RENEWABLE ENERGY SOURCESOn successful completion of the course the students will be able to:

CO1Create awareness about the scenario of energy consumption and energy availability in India and world.

CO2Understand the necessity and potential advantages of renewable energy resources like solar thermal andPV system over fossil fuels.

CO3 Understand the process of power generation using bio gas, wind energy and biomass.CO4 Analyze the functioning of Geo thermal, ocean and small hydro plants and grid integration.

Course Name MINI PROJECTOn successful completion of the course the students will be able to:

CO1 Identification of real time problemsCO2 Awareness of design methodologies & its implementation.CO3 Implementing advanced simulation software techniques.

CO4Able to produce a comprehensive report covering background information, literature survey, problemstatement, project work details and conclusion.

Course Name POWER SYSTEM SIMULATION LABORATORYOn successful completion of the course the students will be able to:

CO1Acquire experience in the usage of standard packages for the following analysis / simulation / controlfunctions.

CO2 Ability to develop computer programs to perform load flow analysis on the power system.

CO3Compute and model the transmission lines and analyze the generation control on power system usingsimulation tools.

CO4 Solve the transient stability problem in single machine infinite bus system.Course Name ELECTRIC DRIVES LAB

On successful completion of the course the students will be able to:CO1 Demonstrate the software tools used for simulation of drives.CO2 Design and apply the speed control for converter/chopper fed DC motor.CO3 Design and apply the speed control for stepper motor.CO4 Demonstrate the software tools used for simulation of drives.

Course Name MICROCONTROLLER BASED SYSTEM DESIGNOn successful completion of the course the students will be able to:

CO1 Able to design PIC microcontroller based system design.CO2 Learnt to identify, formulate, and solve problems in microcontroller based system design.CO3 Understood the computing platform and software.CO4 Learnt about embedded ARM processors and applications.

Course Name POWER QUALITY MANAGEMENTOn successful completion of the course the students will be able to:

CO1 To study various methods of power quality monitoring and the production of voltages sags.CO2 To Study the interruptions types and its influence in various components.CO3 To Study the Effects of harmonics on various equipment’s.CO4 Understand power quality monitoring and classification techniques

Course Name POWER SYSTEM DYNAMICSOn successful completion of the course the students will be able to:

CO1Learners will be able to understand on basics of dynamic modelling in synchronous Machine

CO2 Learners will be able to understand the needs and modeling of controllersCO3 Learners will attain knowledge about stability of dynamic systems.CO4 Learners will understand the significance about small signal stability analysis.

Course Name ARTIFICIAL NEURAL NETWORKSOn successful completion of the course the students will be able to:

CO1 Will be able to know the basic ANN architectures, algorithms and their limitations.CO2 Will be able to understand the Various Learning methodologies.CO3 Will get expertise in the use of different ANN structures and algorithm.CO4 Will be capable of developing ANN based models.

Course Name FLEXIBLE AC TRANSMISSION SYSTEMSOn successful completion of the course the students will be able to:

CO1 Ability to understand and analyze power system operationCO2 Ability to understand and analyze power system stabilityCO3 Ability to understand and analyze power system controlCO4 Ability to understand and analyze power system protection

Course Name SPECIAL ELECTRICALOn successful completion of the course the students will be able to:

CO1 Classify and explain the working of PMSM.CO2 Apply control techniques to permanent magnet brushless DC motors.CO3 Analyze the performance of switched reluctance motor and synchronous reluctance motor.CO4 Categorize the stepping motors and analyze their performance.

Course Name ADVANCED DIGITAL SIGNAL PROCESSINGOn successful completion of the course the students will be able to:

CO1 Learnt about Discrete random processCO2 Studied the parametric methods for power spectrum estimation.

CO3Able to use adaptive filtering techniques using LMS algorithm and to study the application so foradaptive filtering.

CO4 Learnt the wavelet transformsCourse Name TOTAL QUALITY MANAGEMENT

On successful completion of the course the students will be able to:CO1 Explaining the role of Total Quality Management in modern management.CO2 Understanding the statistical approach for quality control.CO3 Outline the knowledge of certification and accreditation.CO4 Extrapolate different quality management tools.

Course Name MODELING AND SIMULATION TECHNIQUES FOR DYNAMICS SYSTEMSOn successful completion of the course the students will be able to:

CO1 Learnt about Leverrier’s algorithmCO2 Studied the controller design in industrial applicationCO3 Able to understand and techniques behind the sensor modeling.CO4 Learnt the different effects on modeling.


CO1Understood the history of industrial robots, robots in popular culture and the anatomy and features of atypical robot.

CO2 Able to calculate the forward kinematics and inverse kinematics of serial and parallel robots.CO3 Learnt to design the sensors, vision system of Robots.CO4 Learnt the control of robots for some specific applications.

Semester VIIICourse Name ELECTRIC POWER UTILIZATION AND ENERGY AUDITING


CO1Impart knowledge on Generation of electrical power by conventional, non–conventional methods.

CO2Understand the principle and design of illumination systems and methods of heating and welding.

CO3 Attain the knowledge about Electric traction systems and their performance.CO4 Determine the needs of energy conservation and implement conservation techniques.

Course Name PROJECT VIVA-VOCEOn successful completion of the course the students will be able to:

CO1 Identification of real time problems.CO2 Awareness of design methodologies and its implementation.CO3 Implementing advanced simulation software techniques.

CO4Able to produce a comprehensive report covering background information, literature survey, problemstatement, project work details and conclusion.

Course Name EHVAC POWER TRANSMISSIONSOn successful completion of the course the students will be able to:

CO1 Understand the concepts of line parameters and its design.CO2 Ability to understand the line parameters for modes of propagation,CO3 Ability to understand about the voltage gradientsCO4 Become very conversant and knowledgeable in Corona effects and in Electrostatic field

Course Name INSULATION AND TESTING ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Learning about the various insulating materials, properties and breakdown mechanisms.CO2 Analyzing the design of High Voltage Equipment.CO3 Learning the various testing of insulating materials.CO4 Learning Dynamic properties of dielectric materials

Course Name ADVANCED ELECTRIC DRIVESOn successful completion of the course the students will be able to:

CO1 Basic requirement of motor selection for different load profiles are studied.CO2 Stability aspects of drive systems are studied.CO3 Important features of DC and AC drives are studied.CO4 Controller design for DC drives is studied.

Course Name DISTRIBUTED GENERATION AND MICRO GRIDOn successful completion of the course the students will be able to:

CO1Attaining knowledge on the various schemes of conventional and nonconventional power generation.

CO2 Learning about energy sources of distributed generation.

CO3Learning about the fundamental concept of Microgrid and the requirements for grid interconnection.

CO4 Understanding protection issues and control schemesCourse Name HVDC TRANSMISSION SYSTEMS

On successful completion of the course the students will be able to:CO1 To understand basic concepts of HVDC systemsCO2 To understandPower factor improvements of the systemCO3 Emphasis knowledge in the converter control systemsCO4 Power flow analysis in DC Systems

Course Name ARM CORE ARCHITECTURE AND PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Understand ARM7TDMI assembly instructions and their formats and usage

CO2 Ability to understand how various coprocessors are interfaced in an SoC.

CO3Good understanding and issues to be handled in using any processor SW tools chain for embeddedsoftware solution development.

CO4

Become very conversant and knowledgeable in cache design, virtual memory and memory protectionconcepts and AMBA bus architecture, various HW peripherals in SoCs and how they can be used or tobe designed

Course Name VIRTUAL INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Understood the basics concepts and fundamentals of virtual instrumentation.

CO2Able to apply and relate the basic tools and techniques to conduct design experiments for automationof industrial processes.

CO3 Learnt about create a virtual instrument through graphical user interface.CO4 Understood to write simple programs in LabVIEW using variables.

Course Name VLSI DESIGNOn successful completion of the course the students will be able to:

CO1 Understood the fundamentals of MOS transistor and fabrication techniques.CO2 Ability to Understand the characteristics of MOS and CMOS circuits.CO3 Able to design the NMOS, CMOS and BiCMOS based logic circuits.

CO4Emphasis knowledge in the PLDs and CPLDs and design using FPGA and Expose to HDL languageand ability to design simple devices

Program Name B.E. (Electronics and Instrumentation Engineering)Semester I


CO1 The ability to comprehend facets of grammarCO2 The ability to be proactively readCO3 The ability to comprehend facets of grammar


CO1 Developing the knowledge of basic linear algebraic concepts.CO2 Developing the knowledge of basic linear algebraic concepts.




CO2 To understand basic concepts of high frequency sound waves and its applications

CO3To apply the concept of polarization phenomenon and thereby its applications in fiber optic

communication.Course Name ENGINEERING CHEMISTRY

On successful completion of the course the students will be able to:CO1 Understanding the concepts of electrochemistry and Energy storage devicesCO2 Understanding the chemistry of CorrosionCO3 Developing the knowledge of chemistry behind water technology


CO1 Acquire knowledge in computer problem solving techniques.CO2 Formulate algorithm for simple problems.CO3 Implement the programs in C using arrays and strings.

Course Name FOREIGN LANGUAGE-GERMANOn successful completion of the course the students will be able to:

CO1 Able to introduce the language, phonetics and the special characters in German languageCO2 Understand themselves and initiate a conversation.CO3 enable the elementary conversational skills

Course Name FOREIGN LANGUAGE-ARABICOn successful completion of the course the students will be able to:

CO1 Enable students improve their grammatical competence.CO2 Enhance their listening skills.CO3 Enhance their lexical and technical competence.

Course Name FOREIGN LANGUAGE-FRENCHOn successful completion of the course the students will be able to:

CO1 Able to introduce the language, phonetics and the special characters in French languageCO2 Understand themselves and initiate a conversation.

CO3Endeavor to develop the ability among the students to read and understand small texts written in

FrenchCourse Name ELECTRONIC DEVICES

On successful completion of the course the students will be able to:CO1 Emphasis knowledge on construction, characteristics of various devices.

CO2Gain adequate knowledge for modeling practical circuits using in the field of P-N junction diode,transistors, Field Effect transistor.

CO3 Understood the circuit design of different oscillator circuits.Course Name INTRODUCTION TOBIOMEDICAL ENGINEERING

On successful completion of the course the students will be able to:CO1 Understand the role of Biomedical Engineers.CO2 Know the fundamentals of diagnostic devices.CO3 Know about various type of analyzers

Course Name BASIC ELECTRICAL ANDELECTRONICS ENGINEERINGOn successful completion of the course the students will be able to:

CO1Recognize the different combinations of circuit elements and solving the circuit by applying basiccircuital laws

CO2 Acquire a good understanding of basics of electrical machinesCO3 Emphasis knowledge on construction, characteristics of various devices

Course Name BASIC CIVIL AND MECHANICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Explain the usage of construction material and proper selection of construction materials.CO2 Design building structures.CO3 Gain knowledge on manufacturing processes like foundry, welding and forging.


CO1Understanding the moduli of elasticity by determining Young’s modulus and Rigidity modulus of abeam and cylinder respectively.

CO2Understanding the phenomenon of diffraction, dispersion and interference of light using opticalcomponent

CO3 Understanding the phenomenon of heat transfer through conductors and badCourse Name ENGINEERING PRACTICES LAB


CO1Ability to demonstrate basic electrical electronic and computer components based on their physicalparameters and dimensions

CO2 An ability to prepare simple wooden joints using wood working tools.CO3 An ability to prepare simple lap, butt and tee joints using arc welding equipments



CO2 Design presentation using MS-PowerPoint with animation effectsCO3 Write and compile programs using C- Language

Course Name ELECTRONIC DEVICES LABOn successful completion of the course the students will be able to:

CO1 Select the suitable range of meters for the given circuit and set the appropriate values of circuitelements and energy sources as per the requirement.

CO2 The student should be able to learn the characteristics of basic electronic devices.CO3 Ability to understand the practical application of various electronic circuits.

Course Name UNIX AND SHELL PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Work confidently in Unix/Linux environment.CO2 Write shell scripts to automate various tasksCO3 Use the basics ofLinux administration Commands.


CO1 Use the software packages for drafting and modeling.CO2 Create 2D and 3D models of engineering components.CO3 Draw the sections of engineering components

Semester IICourse Name Technical English II


CO2The ability to be proactively read, listen, speak and present facts in a persuasive manner in both oral

and written mediumCO3 The ability to interact, translate and delegate information,


CO1Determine the area and volume in 2-dimension and 3-dimension respectively using multiple integralsand also extending the concept to vector fields.

CO2 Learn the basic concepts of analytic functions and transformations of complex functions.CO3 Master the integration in complex domain.



CO2Understanding the physical properties and concept of classical and quantum theories for electron

behaviour in conducting materials.

CO3Determining the carrier concentration and electrical conductivity of intrinsic and extrinsicsemiconductors.


CO1 The knowledge gained on Polymer chemistryCO2 Understanding the principles of Photochemistry & SpectroscopyCO3 Recall the behaviour of Engineering materials

Course Name engineering chemistry labOn successful completion of the course the students will be able to:


CO2 Understand the principle and handling of electrochemical instruments and Spectrophotometer

CO3 Apply their knowledge for protection of different metals from corrosion by using different inhibitorsCourse Name CIRCUIT THEORY

On successful completion of the course the students will be able to:CO1 Analyzing electrical circuits by applying theorems.

CO2Recall the basic concepts of Laplace transform and thus analyses the transient behavior of electricalcircuits

CO3Explaining the way of generation of alternating voltage and the response of single phase circuits andthree phase circuits employing balanced and unbalanced loads.


CO1 Acquire the deep knowledge on Object Oriented Programming conceptsCO2 Develop solutions for given problems using class object conceptsCO3 Make use of Polymorphism and Inheritance concepts to solve real world problems


CO1 Analyze the two port networks using different techniquesCO2 Describe the concept of intrinsic and extrinsic semiconductors and its characteristicsCO3 Recognize the various forms of semiconductors devices and their characteristics

Course Name ESSENTIALS OF INFORMATION TECHNOLOGYOn successful completion of the course the students will be able to:

CO1 design and deploy web-sitesCO2 design and deploy simple web-applicationsCO3 describe the basics of networking and mobile communications

Course Name BIOLOGY FOR ENGINEERSOn successful completion of the course the students will be able to:

CO1 Be familiar with the basic organization of organisms and subsequent building to a living being.CO2 Be Understand the concepts of biochemistry and molecular aspects of life

CO3Be Understand the machinery of the cell functions that is ultimately responsible for various dailyactivities.


CO1 Implement class, object, constructors concepts by using object oriented programming language.CO2 Designs, develop programs using inheritance and polymorphism.CO3 Implement various file concepts, exception handling in object oriented programming.



CO2 Applying theorems to simplify the electric circuits.CO3 Illustrating the transient response and frequency response of RLC circuits.

Course Name CIRCUITS AND DEVICES LABORATORYOn successful completion of the course the students will be able to:

CO1 Demonstrate the different Laws for Network circuitsCO2 Compute the characteristics of various semiconductor devicesCO3 Determine the frequency response of resonance circuits

Course Name Introduction to Matlab ProgrammingOn successful completion of the course the students will be able to:

CO1 write Programs using commands and functionsCO2 Study Matlab toolboxes.CO3 Handle polynomials, and use 2D Graphic commands

Course Name BASIC WORKSHOP PRACTICE LABOn successful completion of the course the students will be able to:





CO2Students will be able to build vocabulary by means of communication via direct indirectcommunication.

CO3 Students will be able to improve pronunciation skills.Semester III

Course Name ENGINEERING MATHEMATICS-IIIOn successful completion of the course the students will be able to:

CO1Describe an oscillating function which appear in a variety of physical problems by Fourier series helpsthem to understand its basic nature deeply.

CO2Acquire the knowledge of formation of partial differential equation for various physical andengineering problems and obtaining solution using different tools.

CO3 Understand the effect of Fourier transform techniques and their applicationsCourse Name ENVIRONMENTAL SCIENCE AND SUSTAINABILITY

On successful completion of the course the students will be able to:CO1 Demonstrate the relationship among environment and ecosystemCO2 Identify and analyze social issuesCO3 Understand the concept of sustainable development

Course Name ANALOG ELECTRONICSOn successful completion of the course the students will be able to:

CO1Design the circuits using diodes based on required output and apply suitable biasing circuits for BJTand FET.

CO2 Acquire the knowledge of inverting, non inverting amplifier, integrator and differentiatorCO3 Design the filters and signal generator circuits according to required output.


CO1 Design the Combinational circuitsCO2 Apply the concept of synchronous and asynchronous circuitCO3 Understand the concept of digital logic families

Course Name ELECTRICAL MACHINESOn successful completion of the course the students will be able to:

CO1Ability to understand the construction, working, characteristics and applications of DC generators &DC motors, testing of single phase transformers

CO2 Analyze the concept of synchronous machinesCO3 Understand the principles of induction motor

Course Name CIRCUIT SIMULATION LABORATORYOn successful completion of the course the students will be able to:

CO1 Study the OSCAD and SCI Lab softwareCO2 Simulate the electrical circuits using network theorems.CO3 Analyze the simulation of Rectifier circuit and amplifiers.

Course Name ANALOG AND DIGITAL ELECTRONICS LABORATORYOn successful completion of the course the students will be able to:

CO1Experiment test bench to learn design, testing and characterizing of circuit behaviour with digital andanalog ICs

CO2 Design the various code converters, shift registers, counters using suitable IC’sCO3 Understand the concept of active filter and Voltage to frequency characteristics

Course Name ELECTRICAL MACHINES LABORATORYOn successful completion of the course the students will be able to:

CO1Implement the characteristics of DC motor and AC motor and help them to develop innovative ideasin engineering

CO2 Perform experiments on the single phase transformers and Induction motorCO3 Determine the regulation of an alternator by EMF & MMF methods

Course Name NETWORK ANALYSIS AND SYNTHESISOn successful completion of the course the students will be able to:

CO1 Apply fundamental concepts in solving and analyzing different electrical networks.

CO2 Evaluate one-port networks and two-port network parameters and to design equivalent networks.CO3 Understand the impact of various types of filters and attenuators.

Course Name FUNDAMENTALS OF HYDRAULICS AND PNEUMATICSOn successful completion of the course the students will be able to:

CO1 Acquire the knowledge about the control and regulation elements

CO2 Understand the basics of hydraulic circuit

CO3Analyze the knowledge on the need, use and application of fluid power and make them familiar toindustrial design that lead to automation.

Course Name APPLIED MECHANICSOn successful completion of the course the students will be able to:

CO1 Understand the basics of force systemCO2 Acquire the knowledge about the distributed forces & friction centroid & centre of gravityCO3 Acquire the knowledge about the Momentum and vibration.

Course Name ELECTROMAGNETIC THEORYOn successful completion of the course the students will be able to:

CO1Apply vector calculus and coordinate systems to static electric-magnetic fields in different engineeringsituations

CO2 Analyze maxwell’s equation and derive expressions for the energy for electrodynamic fields

CO3Calculate the electromagnetic radiation from radiating systems and analyze the electromagnetic wavepropagation.


CO1 Understand and represent the different types of CT and DT signals.CO2 Understand the knowledge in Sampling and QuantizationCO3 Familiarize with the characteristics of discrete time signals


On successful completion of the course the students will be able to:CO1 Apply direct and iterative methods to solve algebraic or transcendental equations.CO2 Apply interpolation technique for determining the intermediate value of a function.

CO3Implement numerical algorithms to find solution for initial value problems in ordinary differentialequations.

Course Name ELECTRICAL AND ELECTRONIC MEASUREMENTSOn successful completion of the course the students will be able to:

CO1 Understand and analyze the working of various electrical metersCO2 Enlighten the basic concepts of electronic meters

CO3Understand and analyze the calibration of industrial meters and apply the appropriate measuringtechniques to real time applications.

Course Name CONTROL SYSTEMSOn successful completion of the course the students will be able to:

CO1 Understandthe basic concepts of open-loop and closed–loop of systemsCO2 Understand the basic concept of systems and to derive their transfer function models.CO3 Analyze the time-domain and frequency response of systems and steady state error analysis

Course Name TRANSDUCERS ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the concept of the methods of measurements, Instrumentation and Calibration

CO2Understand theadequate knowledge of transducers for pressure, force and torque measurement

CO3 Analyze the different active and passive transducerCourse Name THERMODYNAMICS AND FLUID MECHANICS

On successful completion of the course the students will be able to:CO1 Explain the process of gas power cycles and internal combustion engines,CO2 Analyze the performance in air compressor , Refrigeration and air conditioning systems,CO3 Understand the fundamentals of fluid mechanics,

Course Name OBJECTORIENTEDPROGRAMMING AND DATA STRUCTURESOn successful completion of the course the students will be able to:

CO1 Understand the fundamentals of object oriented programming concepts, particularly in C++.CO2 Design applications using inheritance and polymorphism.CO3 Apply object oriented programming concepts to implement Linear Data Structures.

Course Name TRANSDUCERS LABORATORY

On successful completion of the course the students will be able to:CO1 Implement the characteristics of various transducers and infer the reasons for the behaviorCO2 Measure the Resistance, capacitance, inductance using bridgesCO3 Implement various characteristic of sensor.

Course Name THERMODYNAMICS AND FLUID MECHANICS LABORATORYOn successful completion of the course the students will be able to:

CO1 Draw the valve and port timing diagram.CO2 Perform experiments on engine and draw the characteristics curve.CO3 Perform experiments to determine the coefficient of discharge of various meters.

Course Name DATA STRUCTURES LABORATORYOn successful completion of the course the students will be able to:

CO1 Develop programs using oops concept.CO2 Design and implement C++ programs for manipulating stacks, queues, linked lists.CO3 Apply the different data structures for implementing solutions to practical problems

Semester VCourse Name MICROPROCESSORS ,MICROCONTROLLERS AND ITS APPLICATIONS

On successful completion of the course the students will be able to:CO1 Implement the assembly language of 8085 processorCO2 Understand the architecture and programming of 8085 microprocessorCO3 Understand the architecture, programming and interfacing of 8051 micro controller

Course Name PROCESS DYNAMICS AND CONTROLOn successful completion of the course the students will be able to:

CO1 Understand the dynamics of process control.

CO2Understand the characteristics of various controller modes and design of Pneumatic and Electroniccontrollers

CO3 Implement various complex control schemesCourse Name ANALYTICAL INSTRUMENTATION


CO1Understand and analyze colorimetry and spectrophotometry techniques and their applications invarious industries.

CO2 Understand the important methods of industrial gas AnalyzersCO3 Understand the important radio chemical methods of analysis

Course Name PRINCIPLES OF COMMUNICATION SYSTEMSOn successful completion of the course the students will be able to:

CO1 Understand the basic knowledge in analog modulation and demodulationCO2 Analyze the different modulator and demodulator methods of AM and FMCO3 Understand the concept of digital communication

Course Name VIRTUAL INSTRUMENTATION LABORATORYOn successful completion of the course the students will be able to:

CO1Understand the basic concepts of LabVIEW,Arithmetic and Logic operations ,Creating and Debugginga VI

CO2 Implement exercises using programming toolsCO3 Understand the basic concepts of DAQ

Course Name PROCESS CONTROL LABORATORYOn successful completion of the course the students will be able to:

CO1 Understand the dynamic characteristics of different order processes to various test inputs

CO2To design a PID controller and to analyze the various types closed loop process like flow control, levelcontrol, temperature control and pressure control

CO3 Implement the dynamic characteristics of P+I+D controllerCourse Name MICROPROCESSOR AND MICROCONTROLLERS LABORATORY

On successful completion of the course the students will be able to:CO1 Develop the code for simple arithmetic circuits in assembly languageCO2 Implement the developed code using 8085 processors and 8051 controllersCO3 Interface the peripherals with microprocessor and micro controller

Course Name DIGITAL SIGNAL ANALYSIS AND PROCESSING

On successful completion of the course the students will be able to:CO1 Demonstrate the significance of signals and systemCO2 Compute the Fourier analysis calculationCO3 Design digital filters using filtering technique


CO1Acquire knowledge about image fundamentals and mathematical transforms required for imageprocessing

CO2 Perform image analysis by designing spatial and frequency domain filters

CO3Understand the concepts of image segmentation and pattern recognition and to develop an objectrecognition system.

Course Name DIGITAL VIDEO ANALYTICSOn successful completion of the course the students will be able to:

CO1 Understand the basics of Digital videoCO2 Design 3D Fourier transform and Spatial and frequency domain processingCO3 Acquire the knowledge in motion estimation and motion compensation

Course Name POWER ELECTRONICS AND DRIVESOn successful completion of the course the students will be able to:

CO1Understand the concept of different types of power semiconductor devices and their switchingCharacteristics

CO2Understand the operation, characteristics and performance parameters of controlled rectifiers, ACvoltage controller and various configurations

CO3 Apply the basic concepts of the power semiconductor devices.Course Name FIBER OPTICS AND LASER INSTRUMENTATION

On successful completion of the course the students will be able to:CO1 Understand the basic characteristics of Laser.CO2 Provide an adequate knowledge about the Industrial applications of Laser.CO3 Analyze the basic knowledge in holography and Medical applications of Lasers

Course Name SMART SENSORSOn successful completion of the course the students will be able to:

CO1 Understand the concept of smart sensor and micro matchingCO2 Acquire the knowledge of MCUS and DSPS to increase sensor IQCO3 Provide the latest ideas in Communication for smart sensor

Course Name MEMS AND ITS APPLICATIONOn successful completion of the course the students will be able to:

CO1 Provide the knowledge of semiconductors and solid mechanics to fabricate MEMS devices

CO2Introduce various sensors, actuators, Micro fabrication techniques and different materials used forMEMS

CO3Analyze the applications of MEMS to disciplines beyond Electrical and Mechanical Engineering

Course Name BIO–MEDICAL INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1Provide an acquaintance of the physiology of the heart, lung, blood circulation and circulationrespiration

CO2 Understand the concept of various sensing and measurement devices of electrical origin

CO3Analyze the latest ideas on devices of non-electrical devices, modern methods of imaging techniques.

Course Name SATELLITE CONTROL AND INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Understand the depth knowledge of Satellite Communication and systemsCO2 Provide an adequate knowledge about Link calculations and designCO3 Understand the control system in satellite Communication

Course Name SMART MATERIALS & SYSTEMSOn successful completion of the course the students will be able to:

CO1 Understand about the Piezoelectric materials

CO2 Acquire the knowledge in shape memory marerialsCO3 Analyze about the electromagnetism, structures, control and information processing.

Semester VICourse Name INSTRUMENTATION SYSTEM DESIGN

On successful completion of the course the students will be able to:CO1 Analyze about the design of Flow and Temperature Transmitters

CO2Provide the comprehensive knowledge of design for various instrumentation system like Pressure,Level transmitters

CO3 Design and select control valves for typical applications.Course Name INDUSTRIAL INSTRUMENTATION

On successful completion of the course the students will be able to:CO1 Understand the concept of mechanical flow meters and their installation.CO2 Analyze the various types of Electrical flow meters adopted in Instrumentation.

CO3Understand the knowledge on the humidity, moisture measurements, mechanical flow meters and theirinstallation

Course Name LOGIC AND DISTRIBUTED CONTROL SYSTEMOn successful completion of the course the students will be able to:

CO1Understand the important components such as PLC, SCADA, of an industrial automation system.

CO2 Develop PLC program in different languages for industrial sequential applications.CO3 Select and use most appropriate automation technologies for a given application.

Course Name APPLIED SOFT COMPUTINGOn successful completion of the course the students will be able to:

CO1 Provide the adequate knowledge about Various Neural networks

CO2Analyze problems to formulate models and develop control schemes using soft computing techniquesfor non-linear systems.

CO3 Understand the basic concepts of Fuzzy set theory.Course Name INSTRUMENTATION SYSTEM DESIGN LABORATORY


CO1Design of square root extractor, linearizing circuit for thermocouples, ON/OFF and PID Controllers

CO2 Understand the basic concepts of Piping and Instrumentation Diagram, Control valve sizing

CO3Design of capacitance based level transmitter, alarm/annunciator circuits using analog circuits

Course Name INDUSTRIAL INSTRUMENTATION LABORATORYOn successful completion of the course the students will be able to:

CO1 Understand and analyze Instrumentation systems and their applications to various Industries

CO2Understand the Measurement of flow using Venturi meter and orifice meter, Flow transmitter,Viscosity, and torque

CO3Analyze the Characteristics Temperature sensor, temperature transmitter and pressure transmitter

Course Name EMPLOYABILITY SKILLSOn successful completion of the course the students will be able to:

CO1Enhance the employability skills of students with a special focus on Presentation skills, Groupdiscussion skills and Interview skills

CO2 Improve their soft skills, including report writing, necessary for the workplace situationsCO3 Create effective PPTs and presenting the visuals effectively

Course Name CYBER LAWS AND PROTECTIONOn successful completion of the course the students will be able to:

CO1 Understand the technology and cyber lawCO2 Understand the basic concepts of the E-governanceCO3 Analyze the Intellectual property rights and Cyber crime


CO1 Understand the quality and basic concepts of TQM

CO2 Understand the TQM PrinciplesCO3 Analyze the TQM Tools and techniques

Course Name PRINCIPLES OF MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Understand of managerial functions like planning, organizing, staffing, leading & controllingCO2 Understand the basic knowledge on international aspect of managementCO3 Analyze the various organizing techniques


CO1 Create an awareness on Human ValuesCO2 Analyse the Senses of 'Engineering EthicsCO3 Instill Moral and Social Values and Loyalty

Course Name MANAGEMENT AND ENTREPRENEURSHIPOn successful completion of the course the students will be able to:

CO1 Understand the management conceptsCO2 Analyse Various planning processCO3 Understand the nature and purpose of Organizing and staffing

Course Name JAVA PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Understand the Java fundamentalsCO2 Analyse the Various multithreaded, exception handling and appletCO3 Acquire the knowledge in swing

Course Name OPERATING SYSTEMSOn successful completion of the course the students will be able to:

CO1 Gain extensive knowledge and apply the concepts of process managementCO2 Determine the efficiency of CPU Scheduling AlgorithmsCO3 Demonstrate and implement memory management, and paging techniques.

Course Name BIG DATA ANALYTICSOn successful completion of the course the students will be able to:

CO1 Work with big data platform and its analysis techniques.CO2 Design efficient algorithms for mining the data from large volumesCO3 Model a framework for Human Activity Recognition

Course Name CONSUMER ELECTRONICSOn successful completion of the course the students will be able to:

CO1 Understand the concepts of audio system and processingCO2 Describe the operation of Television system and DTHCO3 Demonstrate the functions Telecommunication systems

Course Name GREEN ELECTRONICSOn successful completion of the course the students will be able to:

CO1 Apply the principles and practices of green electronics in selected consumer products.CO2 Analyze the reliability of green electronic systemsCO3 Analyze the reliability of green electronic systems

Course Name EMBEDDED SYSTEMSOn successful completion of the course the students will be able to:

CO1 Summarize the various concepts of the RTOS and OS.CO2 Write program for embedded systemCO3 Perform the design in various concepts for real time application models.

Semester VIICourse Name INDUSTRIAL DATA NETWORKS

On successful completion of the course the students will be able to:CO1 Describing the networks used in data communication.

CO2Providing fundamental knowledge about the computer networks, the methods of internetworking andindustrial data communication

CO3 Providing a fundamental aboutHART and FIELD BUS standardsCourse Name COMPUTER CONTROL OF PROCESSES


CO1Determining the importance of state-space representation and stability analysis of discrete data system

CO2 Understanding the different types of algorithm for digital controllersCO3 Providing adequate knowledge about System Identification

Course Name VLSI DESIGN TECHNIQUESOn successful completion of the course the students will be able to:

CO1 Understanding Architectural MOS devices characteristicsCO2 Analyzing circuits of digital systemCO3 Gain Knowledge in PLDS and FPGAs.


CO1 Knowing the various parts of robots and fields of robotics.CO2 Providing knowledge in robot power sources and sensors.CO3 Understanding and analyze the kinematics and inverse kinematics of robots.

Course Name COMPUTER CONTROL OF PROCESS LABORATORYOn successful completion of the course the students will be able to:

CO1Designing of Discrete P+I+D controller, PI controller for computerized liquid level system andcomputerized thermal system

CO2Understanding the basic concepts of Multivariable control system and Human machine interface usingSCADA package

CO3 Designing of dead beat / Dahlin/ Kalman’s AlgorithmsCourse Name MINI PROJECT

On successful completion of the course the students will be able to:CO1 Implement the skills acquired in the previous semesters to solve practical problems.CO2 Develop a model / prototype of an idea related to the field of Electronics and instrumentation.CO3 Communicate effectively in written format, the working of their project/product.

Course Name TECHNICAL SEMINARAND APTITUDE SKILLSOn successful completion of the course the students will be able to:

CO1Encouraging the students to comprehend the knowledge acquired from the first Semester to SixthSemester

CO2Providing opportunity for the student to apply the knowledge acquired during the academicprogramme to real –life problems that he/she may have to face in future as an engineer

CO3 Ability to review, prepare and present technological developmentsCourse Name BIO–MEDICAL INSTRUMENTATION AND MEASUREMENT


CO1Providing an acquaintance of the physiology of the heart, lung, blood circulation and circulationrespiration

CO2Analyzing the latest ideas on devices of non-electrical devices, modern methods of imaging techniques.

CO3 Analyzing the latest ideas of medical assistance / techniques and therapeutic equipments.Course Name SYSTEM IDENTIFICATION

On successful completion of the course the students will be able to:CO1 Familiarize various model structures for system identificationCO2 Acquire knowledge on control of discrete time system modelsCO3 Get knowledge on the practical aspects of system identification and control

Course Name AUTOMOTIVE INSTRUMENTATION AND CONTROLOn successful completion of the course the students will be able to:

CO1 Teaching the basic and advanced controls in automotive systemsCO2 Learning about the electronic control in safety systemCO3 Studying about the energy management system

Course Name REMOTE SENSINGOn successful completion of the course the students will be able to:

CO1 Ability to understand the concept of Remote sensing components and its typesCO2 Ability to understand atmospheric material and earth’s surface material for remote sensing.

CO3 Knowledge in optical and microwave remote sensingCourse Name ASIC DESIGN

On successful completion of the course the students will be able to:CO1 Understanding Architectural MOS devices characteristicsCO2 Analysing circuits of digital systemCO3 Adequate knowledge design blocks of digital system.

Course Name PRODUCT DESIGN AND DEVELOPMENTOn successful completion of the course the students will be able to:

CO1 Understanding the process to plan and develop productsCO2 Knowing the process of collecting information and developing product specificationsCO3 Realizing the concept of generation, selection and testing processes

Course Name DIGITAL VIDEO ANALYTICSOn successful completion of the course the students will be able to:

CO1 Understand the basics of Digital videoCO2 Design 3D Fourier transform and Spatial and frequency domain processingCO3 Understand and analyzevideo analyticsand their applications

Course Name FAULT DETECTION AND DIAGNOSISOn successful completion of the course the students will be able to:

CO1 Ability to Explain different approaches to Fault Detection and Diagnosis.

CO2Ability detect faults using Limit Checking, Parameter estimation methods, Principle ComponentAnalysis.

CO3 Ability to detect and quantify and compensate stiction in Control valvesCourse Name WIRELESS SENSOR NETWORKS

On successful completion of the course the students will be able to:CO1 Providing the fundamental concept of sensor networksCO2 Implementinginfrastructure establishment of WSNCO3 Proposing a sensor node with different platforms and tools.

Course Name MECHATRONICSOn successful completion of the course the students will be able to:

CO1 Identifyingthe Mechatronics systemCO2 Knowing the knowledge about Actuation SystemsCO3 Learning the system models and controllers

Semester VIIICourse Name Power Plant Instrumentation


CO1Providing an overview of different methods of power generation with a particular stress on thermalpower generation.

CO2 Analyzing various measurements and control in power generation plants.CO3 Ability to understand the knowledge about SCADA in power plants.

Course Name Project Work and Viva-voceOn successful completion of the course the students will be able to:

CO1 Implement the skills acquired in the previous semesters to solve practical problems.CO2 Develop a model / prototype of an idea related to the field of Electronics and instrumentation.CO3 Communicate effectively in written format, the working of their project/product.

Course Name INSTRUMENTATION IN INDUSTRIAL APPLICATIONSOn successful completion of the course the students will be able to:

CO1Understand the unit operations, measurement of parameters in various control loops petrochemicalindustry

CO2Get an adequate knowledge about the unit operations, measurement control loops in paper industry

CO3 Get an adequate knowledge about the measurement of various parameters in Steel industryCourse Name ENVIRONMENTAL INSTRUMENTATION

On successful completion of the course the students will be able to:CO1 Comprehend the concept of Environment.CO2 Grasp the elements in water & air.

CO3 Analyze various Measurement Techniques.Course Name INSTRUMENTATION INAGRICULTURE AND FOOD PROCESSING

On successful completion of the course the students will be able to:CO1 Able to understand the necessity of instrumentation in agriculture and food processing.CO2 Familiarized with instrumentation requirement in agriculture and food processing.CO3 Able to analyse and design systems/instruments for agriculture and food processing.

Course Name NUCLEAR INSTRUMENTATIONOn successful completion of the course the students will be able to:

CO1 Provide knowledge on construction and working of various radiation detectors.CO2 Get thorough knowledge of systems used in nuclear instrumentationCO3 Understand the applications of nuclear instrumentation in industries


CO1 Get Prepared for facing disasters.CO2 Use the modern technology and tools in risk reductionCO3 Aware various natural and men- made disasters.

Course Name RELIABILITY ENGINEERINGOn successful completion of the course the students will be able to:

CO1Identify equipment requirements for a specific process and for various locations and workingconditions.

CO2 Evaluate data analysis methods.CO3 Design an efficient material handling system.

Course Name VIBRATION ANALYSIS AND CONTROLOn successful completion of the course the students will be able to:

CO1 Understand the basics of vibration and its importance in Engineering field.CO2 Analyze Two Degree Freedom systemCO3 Know about vibration control and analysis techniques.

Course Name Building AutomationOn successful completion of the course the students will be able to:

CO1Analyze current philosophy, technology, terminology, and practices used in building automation.

CO2 Select hardware and software for HVAC system.CO3 Analyze Smart building and Security Systems,

Program Name B.Tech (INFORMATION TECHNOLOGY)SEMESTER IIICourse Name Environmental Science and Sustainability

On successful completion of the course the students will be able to:CO1 The students will demonstrate relationship among environment and ecosystem.CO2 The students will identify and analyze effects of pollution on ecosystem.CO3 The students will identify and analyze social issues and sustainable development.

Course Name ENGINEERING MATHEMATICS – IIIOn successful completion of the course the students will be able to:

CO1 Gaining the concept of analysis of linear discrete system using Z-transform approach

CO2Applying Laplace transform techniques to solve ordinary differential equations which have anApplication in many engineering fields.

CO3Describing an oscillating function which appears in a variety of physical problems by Fourier seriesHelps them to understand its basic nature deeply.

CO4 Understanding the effect of Fourier transform techniques and their applicationsAcquiring the knowledge to construct partial Differential equations for various physical andengineering real time problems and obtaining solution using Fourier series methods.

Course Name Digital Principles and System DesignOn successful completion of the course the students will be able to:

CO1 Solve the Postulates of Boolean algebra using different techniques.CO2 Design the Combinational and sequential circuits.

CO3 Apply the concept of synchronous and asynchronous circuitCO4 Knowledge in VHDL for VLSI Design.

Course Name Data Structures and AlgorithmsOn successful completion of the course the students will be able to:

CO1 Identify an appropriate data structures for a given problem.CO2 Implement the different Hashing, searching and sorting techniques.CO3 Enhance the capability in complexity analysis.CO4 Apply various algorithm design techniques for a given problem.


CO1 Create a real-world application by applying the user defined packages, interfaces.CO2 Implement multithreading concepts in real time scenarios.CO3 Design a GUI-based application using Applets &Swings.CO4 Understand the usage of Utility & Generic Classes.


CO1 Understand Basic operational concepts and design of ALU of Digital Computer.CO2 Design and analyze the performance of pipelined control unit.CO3 Understand memory hierarchy and I/O Organization.CO4 Perceive knowledge on Instruction Level Parallelism and Parallel Processing.

Course Name Digital LaboratoryOn successful completion of the course the students will be able to:

CO1 Verification of digital circuits using logical IC’s.CO2 Simplification of Boolean expression and implementing those circuits practically.CO3 Implementation of combinational and sequential circuits.CO4 Programming fundamentals in VHDL.

Course Name Data Structures and Algorithms LaboratoryOn successful completion of the course the students will be able to:

CO1 Implement various basic data structures and its operations.CO2 Implement various Hashing, Searching and Sorting algorithms.CO3 Perform various tree operations.CO4 Develop applications based on data structures.

Course Name Java Programming LaboratoryOn successful completion of the course the students will be able to:

CO1Write a programs that use the fundamental program constructs, including packages & interfaces

CO2 Create &access database connection and handling exceptions.CO3 Design a GUI-based event handling application using Applets &Swings.CO4 Understand the I/O functionality to read & write in the files.

SEMESTER IVCourse Name Probability and Queuing Theory


CO1mbibe the knowledge of basic probability improves the quality of interpretation and decision makingin real time problems of uncertainity.

CO2Learn the concept of two dimensional random variables which helps to understand and analyse thestatistical measures which describes an outcome of a random experiment.

CO3Understand and characterize the random variable phenomenon which evolve with respect to time in aprobabilistic approach.

CO4Construct and solve queuing models that are suitable for practical problems encountered in daily life.


CO1 Gain extensive knowledge and apply the concepts of process managementCO2 Determine the efficiency of CPU Scheduling Algorithms

CO3 Demonstrate and implement memory management, and paging techniques.CO4 Illustrate disk management functionalities and file systems.CO5 Be familiar with protection and security mechanism.

Course Name Database Management SystemOn successful completion of the course the students will be able to:

CO1 Gain and design extensive knowledge on various data models and ER diagram.

CO2Recognize and develop sophisticated queries and authorization techniques to extract information fromdatabase.

CO3 Analyze and eliminate all kind of dependency in a database schema via normalization techniques.CO4 Apply concurrency control and recovery mechanism.

CO5Understand the internal storage structures using different file and indexing techniques & advanceddatabase concepts.

Course Name Microprocessors & MicrocontrollersOn successful completion of the course the students will be able to:

CO1 Explain the architecture and programming of 8086 Microprocessor

CO2Demonstrate the multiprocessor configurations with I\O processor and Numeric Data Processor.

CO3 Analyze the Memory and I/O interfacing of 8086 MicroprocessorCO4 Explain the architecture and programming of 8051 MicrocontrollerCO5 Analyze the Memory and I/O interfacing of 8051 Microcontroller

Course Name Computer NetworksOn successful completion of the course the students will be able to:

CO1Gain extensive knowledge on networks, role of each network layers, transmission medias and Networkcomponents.

CO2Apply various routing algorithms over a network to provide optimal, error free transmission of Datausing error detection and correction techniques.


Course Name Design and Analysis of AlgorithmsOn successful completion of the course the students will be able to:

CO1 Analyze time and space complexity of algorithms.C02 Decisively analyze diverse algorithm strategies for the given problem.C03 Formulate and compute recurrence relations for the given algorithm.CO4 Select optimal solution for the given computational problem.CO5 Improve the efficiency of the algorithm by understanding its limitations.

Course Name Operating Systems LaboratoryOn successful completion of the course the students will be able to:

CO1 Implement basic services and functionalities of operating system using system call.CO2 Implement various CPU scheduling algorithm and inter process communication andCO3 Implement memory management algorithms.CO4 Demonstrate file allocation and organization techniques.CO5 Illustrate disk scheduling algorithms.

Course Name Database Management System LaboratoryOn successful completion of the course the students will be able to:

CO1 Design and implement database schema for a given problem domain.CO2 Populate and query a database using SQL operations.CO3 Prepare reports.CO4 Design & develop an application using advanced databases

Course Name Computer Networks LaboratoryOn successful completion of the course the students will be able to:

CO1 Gain knowledge on the basic concepts of open source network simulator.CO2 Analyze and implement various routing algorithms.

CO3 Simulate networks and analyze traffic using various tools.Analyze the performance of protocols in different layers.

SEMESTER VCourse Name Internet Programming

On successful completion of the course the students will be able to:CO1 Acquire knowledge about Web Programming & Style SheetsCO2 Develop interactive web pages using JavaScriptCO3 Design and validate forms using XML and XSLCO4 Build Servlets, JSP Program to solve real world problemsCO5 Acquire knowledge in Web Services

Course Name Software Engineering & Quality AssuranceOn successful completion of the course the students will be able to:

CO1 Utilize concepts in software development life cycle.CO2 Prepare software requirements specification (SRS) document for real time applications.CO3 Analyze different software design architectures and their implications.CO4 Understand the different software testing strategies and fundamental concepts of SQA.CO5 Identify & Apply SQA Tools for various real time applications.

Course Name Object Oriented Analysis and DesignOn successful completion of the course the students will be able to:

CO1Apply Object Oriented Methodologies and Unified Modeling Approach to develop a system model.

CO2 Analyze, identify object relationship, attributes and methods to build a class.CO3 Use the UML analysis and design diagrams.CO4 Create UML for requirements, designs and component interfaces

C05Design classes, user interface and to have wide knowledge on object storage and interoperability todevelop an effective model.

Course Name Communication EngineeringOn successful completion of the course the students will be able to:

CO1 Analyze the different modulation and demodulation schemesCO2 Apply the basic concepts of different Digital communication Techniques.

CO3Channelize the design concepts and performance of sampling and pulse modulation techniques.

CO4 Interpret the knowledge about spread spectrum and multiple access techniquesCO5 Gain knowledge on Satellite and Optical communication.

Course Name C# & .NET ProgrammingOn successful completion of the course the students will be able to:

CO1 Understand anatomy of C# Programming.CO2 Develop Console application using object oriented concepts, advanced features in C#.CO3 Develop Applications using Interfaces and Events.CO4 Develop Window form application with Database connectivity.CO5 Build Applications using ADO.NETAND ASP.NET.

Course Name Applied Statistics And Numerical MethodsOn successful completion of the course the students will be able to:

CO1Apply numerical methods such as direct, iterative and interpolation to solve algebraic ortranscendental equations and system of equations.

CO2Appreciate numerical solutions for differential and integral calculus as a handy tool to solve problems.

CO3Implement numerical algorithms to find solutions for intial value problems for ordinary differentialequations .

CO4 Draw inference and decision making through hypothesis testing.Course Name Internet Programming Laboratory

On successful completion of the course the students will be able to:CO1 Create a dynamic web page by applying client side scripting languageCO2 Parse XML Documents

CO3 Develop a java bean component.CO4 Design Webpages with server side scripting languages.

Course Name Object Oriented Analysis and Design LaboratoryOn successful completion of the course the students will be able to:

CO1 Prepare a project plan by analyzing project scope and objectives by using OO concepts.CO2 Design & develop UML diagrams.CO3 Get knowledge on Argo UML tool for developing UML diagrams.CO4 Compare test cases, test plan for an application project

Course Name C# & .NET Programming LaboratoryOn successful completion of the course the students will be able to:

CO1 Develop application using the features of C#.CO2 Develop GUI application using interfaces, delegates and events.CO3 Build window form application with database connectivity.CO4 Solve the real world problems using C#.

SEMESTER VICourse Name Compiler Engineering

On successful completion of the course the students will be able to:CO1 Describe the various phases of a compiler.CO2 Parse the generated tokens using top down and bottom up parsers.CO3 Represent the intermediate code for the source languages.CO4 Design and analyze code generation schemes.CO5 Apply the various optimization techniques.

Course Name Cryptography and Security in ComputingOn successful completion of the course the students will be able to:

CO1 Apply Cryptographic algorithms for encryption and decryption for secure data transmission.CO2 Understand the mathematical aspects behind security.

CO3Apply key management and authentication techniques to provide secure Communication.

CO4Understand the roles of threats in networks and the importance of firewalls and intrusion DetectionSystem.

CO5 Independently discover and identify abnormalities within the network caused byCourse Name UNIX Internals

On successful completion of the course the students will be able to:CO1 Identify the data structure for kernel and methods for managing the buffer cache.CO2 Design and implement the subsystems of an operating system.CO3 Implement the various system calls for Unix OS.CO4 illustrate the process and process scheduling concepts.CO5 Analyze the memory management of an open source operating system.

Course Name Open Source SoftwareOn successful completion of the course the students will be able to:

CO1 Create and run application using PHP scripting languages.CO2 Implement the open source databases with scripting languages.CO3 Read, write, execute by hand python programs.CO4 Build complex and large software systems using object oriented programming.CO5 Improve their programming skills and their knowledge of GUI concepts

Course Name Building Enterprise ApplicationsOn successful completion of the course the students will be able to:

CO1 Design and build the foundational enterprise IT architecture.CO2 Elicitate, architect, design and validate the inception of enterprise application.

CO3Capture and implement the dynamic and static elements of an enterprise to manage Enterprise change.

CO4 Design Static and Dynamic applications.CO5 Test enterprise applications in various levels.

Course Name Satellite Communication

On successful completion of the course the students will be able to:CO1 Analyze different orbital elements.CO2 Control the space craft subsystems and design link budget analysis.CO3 Apply multiple access technique for Satellite Communication.CO4 Describe the various types of Earth Segments.CO5 Understand different applications of Satellite.

Course Name Robotics & AutomationOn successful completion of the course the students will be able to:

CO1 Knowing the various parts of robots and fields of robotics.CO2 Providing knowledge in robot power sources and sensors.CO3 Understanding and analyze the kinematics and inverse kinematics of robots.CO4 Learning the robot programing methods and language.CO5 Reviewing some industrial applications of the robot.

Course Name Compiler and Security LaboratoryOn successful completion of the course the students will be able to:

CO1 Construct the token recognizer from token specification.CO2 Implement parserfrom the syntax specification.CO3 Generate intermediate code and to implement simple code optimization techniques.CO4 Implement the classical encryption techniques.CO5 Provide security by implementing cryptographic algorithms.

Course Name Open Source Software LaboratoryOn successful completion of the course the students will be able to:

CO1 Design and develop input validation test schemes using PHP scripting languages.CO2 Gain knowledge and hands-on experience in database tools.CO3 Select programming language and tools suitable for given problem.CO4 Analyze and adapt simple and basic python scripts for GUI application.CO5 Develop applications by incorporating distributed computing architectures

Course Name Employability Skills LaboratoryOn successful completion of the course the students will be able to:

CO1 Comprehend the various strategies of listening and its significance.CO2 Articulate their views clearly and concisely with self-confidence and persuasiveness.

CO3Understand the prevailing practices of testing in the recruitment process by the corporates and theinstitutional selection processes.

CO4 Communicate the corporate and social requirements in an impressive written mode.

CO5Enhance their verbal skills in the screening tests competently both for recruitment and pursuing higherstudies as well.

SEMESTER VIICourse Name Mobile Communications

On successful completion of the course the students will be able to:CO1 Explore the basics of mobile telecommunication system.CO2 Familiarize with working aspects of telecommunication system & MAC protocols.CO3 Analyze the working principles of TCP/IP & its standards.CO4 Understand design issues of Ad hoc networks,CO5 Develop a mobile application.

Course Name Data Warehousing and Data MiningOn successful completion of the course the students will be able to:

CO1Have an extensive knowledge on concepts of data warehousing and differentiate OLTP and OLAP.

CO2 Discover and measure interesting patterns from different kinds of databases.CO3 Apply the technique of association finding to solve real life problems.CO4 Compare and contrast the various classifiers.C05 Able to explore recent trends in data mining and its applications.

Course Name Mobile Application DevelopmentOn successful completion of the course the students will be able to:

CO1 Familiarize with Mobile apps development aspects.CO2 Design and implement the user interfaces for mobile applicationsCO3 Develop useful mobile applications using Google Android and Eclipse simulator.CO4 Develop mobile applications using graphics and animationCO5 Perform testing, signing, packaging and distribution of mobile apps

Course Name Cloud ComputingOn successful completion of the course the students will be able to:

CO1Articulate the main concepts, key technologies, strengths and limitations of cloud Computing.

CO2Choose the appropriate technologies, algorithms and approaches for the related issues in Cloud.

CO3 Identify the architecture, infrastructure and delivery models of cloud computing.CO4 Understand and apply Map and Reduce Programming.

CO5Understand the core issues of cloud computing such as security, privacy and interoperability.

Course Name Internet of ThingsOn successful completion of the course the students will be able to:

CO1 Compare and analyze different design issues and domains of IoT.CO2 Identify different design methodologies and end point devices of IoT.CO3 Prepare different cloud based and embedded solution for IoT.CO4 Formulate different case studies related to IoT framework.CO5 Solve data analytical and real-time application problems on IoT.

Course Name Engineering Ethics & Human ValuesOn successful completion of the course the students will be able to:

CO1

Students will have the ability to perform with professionalism, understand their rights, legal, ethicalissues and their responsibilities as it pertains to engineering profession with engaging in life-longlearning with knowledge of contemporary issues.

Course Name Mobile Application Development LaboratoryOn successful completion of the course the students will be able to:

CO1 Design and Implement various mobile applications using emulators.CO2 Deploy applications to hand-held devicesCO3 Develop an application using basic graphical primitives and databases.

CO4Construct an application using multi threading and RSS feed and Make use of location identificationusing GPS in an application.

Course Name Cloud Computing LaboratoryOn successful completion of the course the students will be able to:

CO1 Develop and deploy cloud application using popular cloud platforms,

CO2Design and develop highly scalable cloud-based applications by creating and configuring virtualmachines on the cloud.

CO3 Explain and identify the techniques of hadoop cluster in cloud.

CO4Compare, contrast, and evaluate the key trade-offs between multiple approaches to map reduce in cloudsystem design.

Course Name Mini ProjectOn successful completion of the course the students will be able to:

CO1Able to analyze Engineering problem specification and recommend a optimum set of technicalsolutions.

CO2Able to acquire industry relevant skills by working in team and efficiently communicating thedeliverables.

CO3 Able to implement innovative ideas in solving contemporary issues.SEMESTER VIIICourse Name Big Data Analytics

On successful completion of the course the students will be able to:CO1 Understand the fundamentals of big data, its storage and processing concepts.CO2 Apply analytics for various big data based problems.

CO3 Identify the Problem appropriate to data streams.CO4 Develop applications using NoSQL DB.CO5 Explore on big data applications using big data framework.

Course Name Software TestingOn successful completion of the course the students will be able to:

CO1 Understand the impact of software defects and realize the importance of Software testing.

CO2Design test cases on two fundamental criteria namely Functional and Non Functional Test cases.

CO3 Plan, manage and organize testing for the product developed.

CO4Automate the testing process for the web application and to impart security into the application.

CO5 Use automates testing tools to test the Application projects.Course Name Adhoc and Sensor Networks

On successful completion of the course the students will be able to:CO1 Explain the concepts, architecture and applications of Ad Hoc and WSN.CO2 Analyse the MAC protocol design concepts in Ad Hoc networks.CO3 Design Ad Hoc routing protocols with respect to some protocol design issues.

CO4Identify different MAC protocols and evaluate the QOS related performance measurement of SensorNetworks.

CO5 Recognize various routing protocols and its issues in WSN.Course Name Project Work


CO1Able to analyze Engineering problem specification and recommend a optimum set of technicalsolutions.

CO2Able to acquire industry relevant skills by working in team and efficiently communicating thedeliverables.

CO3 Able to implement innovative ideas in solving contemporary issues.Program Name B.E. (MECHANICAL ENGINEERING)

Semester ICourse Name TECHNICAL ENGLISH - I

On successful completion of the course the students will be able to:CO1 The ability to comprehend facets of grammarCO2 The ability to be proactively readCO3 The ability to interactCO4 The ability to carry out extempore discussionsCO5 The ability to comprehend facets of grammar






CO5 Developing the knowledge of basic linear algebraic concepts.Course Name ENGINEERING PHYSICS



CO2 To understand basic concepts of high frequency sound waves and its applications.


CO4To understand the concepts of production of laser and its behaviour with diffraction principle ofinterference.

CO5To apply the concept of polarization phenomenon and thereby its applications in fiber opticcommunication.




CO1 Perform free hand sketching of basic geometrical constructions and multiple views of objects.CO2 Draw orthographic projection of lines and plane surfaces.CO3 Draw projection of solids of simple solids.CO4 Draw section of solids and development of lateral surfaces.CO5 Prepare isometric and perspective sections of simple solids


CO1 Acquire knowledge in computer problem solving techniques.CO2 Formulate algorithm for simple problems.CO3 Implement the programs in C using arrays and strings.CO4 Develop programs using functions, structures and files.








CO2 Design presentation using MS-PowerPoint with animation effects.CO3 Write and compile programs using C- Language.CO4 Develop programs in C for any computing problems.



CO2Students will be able to build vocabulary by means of communication via direct and indirectcommunication.

CO3 Students will be able to improve pronunciation skills.CO4 Students will be able to understand various rules and means of written communication












CO1




CO1 Ability to resolve the forces into single equivalent forces at equilibrium conditions.

CO2Ability to draw the free body diagram of a body and to find the moment – couple of rigid bodies.

CO3 Ability to calculate the centroid and Moment of inertia for different 2-D plane figures.CO4 Ability to solve rigid body subjected to dynamic forces.CO5 Ability to analyze the body under frictional forces.

Course Name BASIC CIVIL & MECHANICAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Recognize and understand the classification in surveying.CO2 Know the various types of bridges and dams.CO3 Learn the manufacturing processes like foundry, welding and forging.CO4 Understand reasons for differences among operating characteristics of different engine.CO5 An ability to explain the components of Refrigeration and Air conditioning cycle.


CO1Verify the theoretical ideas and concepts covered in lecture by completing a host of experiments.


CO3 Acquire and interpret experimental data to examine the physical law.Course Name ENGINEERING PRACTICES LABORATORY

On successful completion of the course the students will be able to:CO1 An ability to prepare simple lap, butt and tee joints using arc welding equipments.CO2 Students will be able to prepare sheet metal models for household and industrial applications.





CO1

Use the full range of CAD commands and options and employ shortcuts and time-saving strategies tooperate the program at a level of efficiency acceptable for employment as a CAD Engineer.

CO2Use the CAD software package to create drawings from scratch and to modify, manipulate, copy,delete, save, and plot drawings.

CO3 Draw different kinds of engineering curves using the CAD software packages.

CO4Draw the sectional top view, sectional front view and true shape of the section for cylinder, cone,pyramid and prisms.

CO5 Create, render, and manipulate 3D drawings and convert 3D drawings to 2D drawings.Semester III

Course Name ENGINEERING MATHEMATICS IIIOn successful completion of the course the students will be able to:

CO1 Gaining the concept of analysis of linear discrete system using Z-transform approach.

CO2Applying Laplace transform techniques to solve ordinary differential equations which have anapplications in many engineering fields.

CO3Describing an oscillating function which appears in a variety of physical problems by Fourier serieshelps them to understand its basic nature deeply.

CO4Acquiring the knowledge to construct partial differential equation for various physical and engineeringreal time problems and obtaining solution using Fourier series methods.

CO5 Understanding the effect of Fourier transform techniques and their applicationsCourse Name ENGINEERING THERMODYNAMICS

On successful completion of the course the students will be able to:CO1 Understand the first law of thermodynamics and can apply it to open and closed systems.CO2 Comprehend the second law of thermodynamics and determine the efficiencies of engines.

CO3Acquire the knowledge to calculate specified parameters such as mass flow rate, work, heat transfer,entropy.

CO4Estimate thermodynamic properties of substances in gas or liquid state of ideal and real mixture.

CO5 Analyze the performance of various gas power cycles and to study the psychometric processCourse Name FLUID MECHANICS AND MACHINERY

On successful completion of the course the students will be able to:CO1 Acquires the knowledge regarding fluid mechanics.CO2 Recognize the principles written in form of mathematical equations.

CO3Determine the significance of dimensional parameters that influence the flow in fluid mechanics.

CO4 Understand the concept and working of turbines and pumps with its performance.CO5 Determine the performance parameters of centrifugal pump and reciprocating pump.

Course Name MANUFACTURING TECHNOLOGY – IOn successful completion of the course the students will be able to:

CO1Explain the requirements, process, application and defects of sand casting and special castingprocesses.

CO2Explain the working principles and applications of different arc welding processes, special weldingprocesses and defects associated with it.

CO3Select the suitable process for manufacturing of components among forging, rolling, drawing, extrusionand its types.

CO4 Explain the principles and working of shearing, bending, drawing and forming in sheet metal.CO5 Judge the suitability of a plastic manufacturing process based on application requirements


CO1 To understand & appropriate the structure of ecosystem and its impact on environment.CO2 To understand the various natural resources and biodiversity.CO3 To recognize the environmental problems caused due to pollution.CO4 To understand the effect of human population on environment.CO5 To understand the concept of sustainable development.

Course Name ELECTRICAL DRIVES AND CONTROLSOn successful completion of the course the students will be able to:

CO1Understood the stable steady-state operation and transient dynamics of a motor-load system.

CO2 Analyzed the starting and braking methods of DC and AC drives.CO3 Understood the speed control methods of DC motors and induction motors.CO4 Learnt about relevant drive system for a given application with given specifications.

Course Name FLUID MECHANICS AND MACHINERY LABOn successful completion of the course the students will be able to:

CO1 Measure flow through the orifice meter, venturimeter and rotometer.CO2 Acquire knowledge in flow through different pipes.CO3 Determine the friction loss through various pipes.CO4 Draw the characteristics curve for centrifugal, reciprocating, gear oil and submersible pump.CO5 Study the performance characteristics in different turbines.

Course Name MANUFACTURING TECHNOLOGY LAB – IOn successful completion of the course the students will be able to:

CO1The students are capable to perform plain turning, taper turning, thread cutting, knurling, drilling,reaming and tapping etc.

CO2 Ability to know about the basic concepts of cold forging operations.CO3 Ability to know the concepts of foundry technology and to develop skills on sand casting.CO4 Students can get the knowledge on applications of Brazing operation.

CO5 Students can demonstrate and fabricate different types of components using the machine tools.Course Name ELECTRICAL DRIVES AND CONTROL LABORATORY

On successful completion of the course the students will be able to:CO1 Analyzed the characteristics of DC machines.CO2 Acquired knowledge to test different DC motors.CO3 Gained practical knowledge on transformer testingCO4 Understood various tests on AC machines.

Semester IVCourse Name ENGINEERING MATERIALS AND METALLURGY

On successful completion of the course the students will be able to:CO1 Knowledge about the basic structure of metal and non metal.CO2 Understand the heat treatment process.CO3 Select the required testing techniques for different materials.CO4 Gain knowledge on different class of materials and their applications.CO5 Know about ceramics and fibre reinforced polymers as well as its applications.

Course Name THERMAL ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Acquire the knowledge, capability of analyzing problems associated to air standard cycles.

CO2Communicate effectively the concepts of internal combustion engines and try to think beyondcurriculum in alternative source of energy.

CO3Analyse flow through nozzle and to draw the velocity triangle for impulse and reaction turbine.

CO4 Calculate the efficiency of reciprocating air compressor.CO5 Evaluate COP of vapour compression refrigeration systems.

Course Name STRENGTH OF MATERIALSOn successful completion of the course the students will be able to:

CO1 Stresses and strains in the machine members subjected to axial loads.CO2 Shear force, bending moment, bending stress and shear stress induced in beam.CO3 Deflection in beams, column, torsion in shafts and springs.CO4 Deflection in beam and columns for different types of beam and columns.CO5 Stress and deformation in cylindrical, spherical shell and on an inclined plane

Course Name MANUFACTURING TECHNOLOGY – II


CO1Gain the knowledge on the fundamentals of metal cutting, merchant circle diagram, to solve tool lifeproblems, types of wear, tool-tip temperature.

CO2 Learn various types of centre lathe and special purpose lathes.

CO3Learn various types and operations of drilling machine, boring and reaming, broaching, shaping andplanning, grinding, honing, lapping and super finishing operations.

CO4 Learn the manufacturing processes of abrasive processes and gear cutting.CO5 Know the concepts of Part programming and about CNC machine tools.

Course Name MACHINE DRAWINGOn successful completion of the course the students will be able to:

CO1 Represent the conventions of standard machine componentsCO2 Use the different types of keys and joints for machine componentsCO3 Create the Bill of materials for drawingCO4 Represent the fits and tolerance in drawingCO5 Draw the assembled view of the part drawings of the assemblies.

Course Name THERMAL ENGINEERING LABORATORY - IOn successful completion of the course the students will be able to:

CO1 Draw the valve and port timing diagram.CO2 Perform experiments on the engine and draw the characteristics curve.CO3 Perform experiments on computerised VCR S.I and C.I Engine.

CO4Perform experiments on two stage Reciprocating Air Compressor and draw the characteristics curve.

CO5 Perform experiments to determine the properties of fuels and oils.Course Name MATERIAL TESTING AND METALLURGY LABORATORY

On successful completion of the course the students will be able to:CO1 The student will have the knowledge to perform various mechanical testing.

CO2The student will have the knowledge to prepare the specimens as per standard for mechanical testing.

CO3 The student will be able to analyze the microstructure of various engineering materials.

CO4The students will have an ability to conduct experiment of materials under untreated and heat treatedconditions.

CO5 The student will have the knowledge of performing various non – destructive tests.Course Name MANUFACTURING TECHNOLOGY LAB II

On successful completion of the course the students will be able to:CO1 Calculate machining time, metal removal rate for all machining operation.

CO2Prepare the models with dimensional accuracy and tolerance using the special purpose machineries.

CO3 Find suitable machining process for suitable applications.CO4 Perform Lathe, Milling and Drilling operationsCO5 Perform Grinding, Milling and Drilling operations.

Semester VCourse Name METROLOGY AND INSTRUMENTATION


CO1Know about the working principle of generalized measurement system, the knowledge on calibrationand definitions of various measurement terms.

CO2 Know about the concepts of linear and angular measuring instruments.

CO3Know the concepts of gear measuring instruments, definitions of straightness, flatness, roundnessterms.

CO4 Gain knowledge on working principle of Laser devices and Coordinate measuring machine.

CO5Gain knowledge on how to measure the instrumentation parameters like force, power, torque, flow andtemperature.

Course Name HEAT AND MASS TRANSFEROn successful completion of the course the students will be able to:

CO1 Intrepret conduction, convection and radiation heat transfer.

CO2 Solve problems involving steady-state and transient heat conduction in simple geometries.

CO3Determine values of the convection heat transfer co-efficient by applying empirical correlations.

CO4Analyze heat transfer performance by using the method of log mean temperature difference and heatexchanger effectiveness.

CO5 Evaluate radiation heat transfer between black body and gray body surfaces.Course Name KINEMATICS OF MACHINERY

On successful completion of the course the students will be able to:CO1 Demonstrate the simple mechanisms with suitable examples.

CO2Determine displacement, velocity and acceleration of any point on a link in simple mechanism.

CO3 Construct cam profile for various follower motionsCO4 Describe law of gearing, types of gears, terminologies of spur gears and gear trains.CO5 Analyze and synthesis position, velocity and acceleration for various mechanisms

Course Name DESIGN OF MACHINE ELEMENTSOn successful completion of the course the students will be able to:

CO1 Apply the concept of steady stresses in design of machine elements.CO2 Design shafts and couplings for various applications.CO3 Design temporary and permanent joints.CO4 Design various energy storing elements.CO5 Select bearings for specific applications.

Course Name APPLIED HYDRAULICS AND PNEUMATICSOn successful completion of the course the students will be able to:

CO1The students are able to comprehend the concept of fluid power systems and applications in industries.

CO2The students are able to select appropriate fluid power driving system and actuators for any givenapplications.

CO3The students are able to know about the use of control components, accessories of hydraulic systems.

CO4 The students are able to gain knowledge on pneumatic system and components.

CO5An ability to design the hydraulic and pneumatic circuits and exposure of diagnose or troubleshoot thepower systems.

Course Name METROLOGY AND INSTRUMENTATION LABORATORYOn successful completion of the course the students will be able to:

CO1 Perform calibration process for micrometer, dial gauge, vernier caliper.CO2 Perform experiments by using sine bar, gear tooth vernier caliper and tool makers microscope.

CO3Use autocollimator for straightness and flatness measurement and thermocouple for temperaturemeasurement.

CO4 Learn about coordinate measuring machine for linear and angular measurements.CO5 Identify sources of variability, error and uncertainties.

Course Name THERMAL ENGINEERING LABORATORY - IIOn successful completion of the course the students will be able to:

CO1 Practically relate to concepts discussed in the heat transfer course.CO2 Conduct various experiments to determine thermal conductivity of various materials.CO3 Conduct performance tests and thereby improve effectiveness of heat exchangers.CO4 Conduct performance tests and improve COP of refrigeration systems.CO5 To determine the overall heat transfer coefficient for a composite wall.

Course Name COMPUTER AIDED MACHINE DRAWINGOn successful completion of the course the students will be able to:

CO1Acquire the knowledge of various standards and specifications about standard machine components.

CO2 Develop 2D and 3D part models using modeling software.

CO3Prepare engineering drawing for industrial component using Indian standard code of practice.

CO4 Prepare bill of materials for production drawings.CO5 Select, configure and synthesize mechanical components into assemblies.

Course Name DESIGN CONCEPTS IN ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Perform design process for developing new machine members.CO2 Notice tools in engineering designCO3 Find the solution in materials selection and materials in designing a new machine member.CO4 Conduct designing machine members using materials processing.

CO5Apply knowledge to select material basing on legal, ethical environmental and safety issues in designand quality engineering.

Course Name PRODUCTION AND OPERATIONS MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Get knowledge on operations management in the overall business strategy.

CO2Get knowledge about the new product manufacturing plant layout and preparation of plant layout.

CO3 Get ideas about various tools appropriate for analysis of operating systems of the firm.

CO4Get knowledge on Effective Forecasting of Production functions, Enhanced Planning of ProductDesign and Service Operations. Facility Planning and Project Management.

CO5Get the knowledge on the concepts of applications of work study and method study in industries.

Course Name INTRODUCTION TO NANOTECHNOLOGYOn successful completion of the course the students will be able to:

CO1Have a working knowledge of Nano science and nanotechnology, including theory and experiments.

CO2Get ideas about various microscopic techniques used for studying nanomaterials was understood.

CO3 Get knowledge on synthesis of Nano materials and their applications.CO4 Learn different lithographic techniques used for nanofabrication.

CO5Get knowledge on plasmonics and photonics for developing various applications such asoptoelectronics gained.

Course Name RENEWABLE ENERGY SOURCESOn successful completion of the course the students will be able to:

CO1 Identify the techniques used to utilize the solar energy effectively.

CO2Appreciate the need of wind energy and the various components used in energy generation and knowthe classifications.

CO3Acquire the knowledge of biomass energy resources and their classification, types of biogas plantapplications.

CO4 Acquire the knowledge of modern energy conversion technologies.CO5 Get awareness of new energy and economics of power generation.

Course Name INTERNAL COMBUSTION ENGINESOn successful completion of the course the students will be able to:

CO1 Acquire the knowledge and concepts of IC engines.CO2 Interpret the basic concept and combustion parameters in SI engine.CO3 Interpret the basic concept and combustion parameters in CI engine.CO4 Acquire knowledge in measurement and testing of internal combustion engine.CO5 Comprehend the qualities of IC Engine fuels and emission control techniques.

Course Name ADVANCED MANUFACTURING PROCESSESOn successful completion of the course the students will be able to:

CO1 Demonstrate the basic operation of various unconventional manufacturing processes.

CO2Apply the knowledge of mechanical energy based processes in their projects and interpret theimportance of different processes for various applications.

CO3Apply the knowledge of electrical energy based processes in their projects and to identify the variousparameters and their influence on the performance of the processes.

CO4 Explain the various chemical machining processes and its effects on environment.

CO5Explain thermal energy based processes like laser beam machining, electron beam machining andplasma arc machining, cutting and spraying.

Semester VICourse Name DYNAMICS OF MACHINERY

On successful completion of the course the students will be able to:CO1 Predict the force analysis in mechanical system.CO2 Balance the static and dynamic balancing of rotating and reciprocating masses.CO3 Analyse the free vibration in single degree of freedom.CO4 Analyse force vibration caused by unbalancing, vibration transmissibility and isolation.CO5 Find the role of governors and gyroscopes used for speed control and stability control.

Course Name GAS DYNAMICS AND JET PROPULSIONOn successful completion of the course the students will be able to:

CO1The students will become familiar with basic fundamental equations of one dimensional flow ofcompressible fluid and isentropic flow of an ideal gas.

CO2The students will be able to acquire knowledge on the effects of heat transfer and friction flow throughducts.

CO3 An ability to acquire the knowledge on flow parameters with normal and oblique shocks.

CO4An ability to understand the working concepts of the gas dynamics principles in the jet propulsions.

CO5 An ability to study the working concepts of rocket propulsion and various propellants.Course Name DESIGN OF TRANSMISSION SYSTEMS

On successful completion of the course the students will be able to:CO1 Design and select pulleys, chain drives, rope drives and belt drives.CO2 Design and select spur gears and parallel axis helical gears.CO3 Design and select bevel, worm and cross helical gears.CO4 Design gear boxes.CO5 Design brakes and clutches.

Course Name CAD/CAM/CIMOn successful completion of the course the students will be able to:

CO1 Use computer and popular CAD software's for modelling.CO2 Know the construction features of NC and CNC machines and the components.CO3 Gain the knowledge of computer integrated manufacturing.CO4 Develop knowledge on group technology and computer aided process planning.CO5 Utilize knowledge of flexible manufacturing system on shop floor in industries.

Course Name DYNAMICS LABORATORYOn successful completion of the course the students will be able to:

CO1 Demonstrate the principles of kinematics and dynamics of machinery.CO2 Determine mass-moment of inertia for simple bodies experimentally.CO3 Design the cam and follower for different applications.CO4 Analyze natural frequency of vibratory systems.CO5 Analyze governors and gyroscopes.

Course Name CAM LABORATORYOn successful completion of the course the students will be able to:

CO1PC based CNC machines and windows based CAM software packages has made CNC programming.

CO2Good aptitude for understand by the modern CNC control system in modern manufacturing system.

CO3Knowledge to prepare the CNC Part Programming Techniques and to perform the manufacturingoperation.

CO4CAM software packages make it easy to translate CAD files into CNC programs which enable users tohandle sophisticated jobs.

CO5 Knowledge of programming codes used in industry.Course Name INDUSTRIAL RELATION AND ORGANIZATIONAL DEVELOPMENT


CO1Know how to manage work place conflict and they understand how to resolve industrial relations andhuman resource problems.

CO2 Know about the causes for strikes and its prevention.CO3 Know about industrial safety provisions and industrial health and hygienic conditions.CO4 Analyze organizations more accurately and deeply by applying organization theory.CO5 Know about the applications of evolutionary and revolutionary change management system.

Course Name REFRIGERATION AND AIR CONDITIONINGOn successful completion of the course the students will be able to:

CO1 Work on various refrigeration cycle and refrigerants.CO2 Understand the function of each of the major refrigeration system components.CO3 Draw human comfort chart for various air conditioning systems.CO4 Test the air conditioning system equipment and control system.CO5 Select the type of refrigeration and air conditioning for various applications.

Course Name PRINCIPLES OF MANAGEMENT AND BUSINESS CONCEPTSOn successful completion of the course the students will be able to:

CO1 Understand the elements of effective management.CO2 Know about motivation theories.CO3 Gain the knowledge on managerial skills and business activities.CO4 Understanding of business concepts and its applications.CO5 Discuss and apply the planning, organizing and control process.

Course Name QUALITY CONTROL AND RELIABILITY ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Gain knowledge of statistical quality control techniques like X chart, R chart and s chart.CO2 Gain the knowledge of control chart for attribute like C and U charts.CO3 Use the sampling techniques necessary for engineering practice.

CO4Understand the various types of models like Weibull distribution and to know about productdevelopment.

CO5 Know about the various types of redundancy techniques.Course Name RESOURCE MANAGEMENT TECHNIQUES

On successful completion of the course the students will be able to:CO1 Understand the mathematical tools that are needed to solve optimization problems.

CO2Identify and develop operational research models from the verbal description of the dual systems.

CO3 Study the techniques of integer programming.

CO4Solve mathematical models like Newton Raphson method, Lagrangian method and Kuhn Tuckerconditions.

CO5Develop a operational event and activities effectively by use of CPM and PERT for projectmanagement

Course Name METAL FORMING TECHNIQUESOn successful completion of the course the students will be able to:

CO1The students can understand load requirements for various bulk metal forming with or without additionof heat.

CO2 The students can understand tooling and press capacity for making sheet metal components.CO3 Ability to know about extrusion processes and its force calculations.CO4 The students are able to develop super plastic forming processes technique.CO5 Student can able to analyse the new develop component by using simulation software.

Course Name TURBOMACHINERYOn successful completion of the course the students will be able to:

CO1 Acquire the basic concepts in turbo machines.CO2 Became aware of centrifugal fans and blowers.CO3 Explain the working principle and operation of centrifugal compressor.CO4 Optimize the performance of axial flow compressor.

Understand the concepts of axial and radial flow turbines.Course Name DESIGN OF JIGS AND FIXTURES

On successful completion of the course the students will be able to:CO1 Locate and clamp the jigs and fixturesCO2 Design, develop, assembly and inspect the jigs and fixtures for various componentsCO3 Design the various elements of diesCO4 Develop the required views of the final design.CO5 Use the computer aids for sheet metal forming analysis.

Course Name ADDITIVE MANUFACTURINGOn successful completion of the course the students will be able to:

CO1 The students will able to gain knowledge on rapid prototyping technique.

CO2The students will be able to gain knowledge about stereo lithography process and selective lasersintering.

CO3The students get sound knowledge on the processes like fused-deposition modeling and solid groundcuring.

CO4The students get sound knowledge on the processes like laminated object manufacturing, conceptmodeler and laser engineered net shaping.

CO5The students can enhance their knowledge in rapid tooling and different software used for rapidprototyping like solid view.

Course Name INTRODUCTION TO MICRO ELECTRO MECHANICAL SYSTEMSOn successful completion of the course the students will be able to:

CO1 Understand the difference between microsystem and microelectronics and their applications.CO2 Gain knowledge on manufacturing and micro fabrication techniques in MEMS.CO3 Understand the working principle of actuators and sensors.CO4 Design, model, simulate and perform testing on the nano fluids and micro pump.CO5 Design a microsystem and gain knowledge on packing technologies.

Course Name DESIGN OF HEAT EXCHANGEROn successful completion of the course the students will be able to:

CO1Perform the heat transfer analysis using LMTD and NTU method depending on nature of problem andavailable data.

CO2 Perform the thermal and hydraulic design of concentric tube heat exchanger.CO3 Become aware of heat transfer co-efficient and friction for shell and tube heat exchanger.CO4 Perform the heat transfer enhancement and pressure drop on compact heat exchangers.CO5 Understand the effect of fouling of heat exchangers.

Course Name NON DESTRUCTIVE TESTING AND MATERIALSOn successful completion of the course the students will be able to:

CO1 Apply scientific and technical knowledge to the field of non-destructive testing.CO2 Use the relevant non-destructive testing methods for various engineering practice.CO3 Analyse and interpret the defects to improve the overall quality of products.CO4 Develop their skills in inspection of the components.CO5 Increase overall reliability of the products by selection of suitable inspection techniques.


CO1The students will have awareness on engineering ethics and human values to instill moral and socialvalues.

CO2Students will be able to know about the importance and outcomes of experimentation of ethics with acase study.

CO3 Students will be able to know about assessment of safety and risk.

CO4The student will have an ability to develop the knowledge in the area of collegiality, loyalty,confidentiality and IPR.

CO5 The students are aware of about the global issues related to engineering.Semester VII

Course Name MECHATRONICS AND ROBOTICSOn successful completion of the course the students will be able to:

CO1The students will be able to analyze mechatronics systems and different sensors used for displacement,position, velocity, motion, force, fluid pressure, temperature, etc

CO2The students acquire knowledge in system models of mechanical, electrical, fluid, thermal systems andcontinuous and discrete process controllers

CO3The students will be familiar with the basic structure of programmable logic controllers and indesigning mechatronics systems

CO4The students will be able to acquire the knowledge of different types and classification of robots, endeffectors and robot kinematics.

CO5 The students will be able to gain the knowledge on robot programming languages.Course Name FINITE ELEMENT ANALYSIS

On successful completion of the course the students will be able to:CO1 Identify mathematical model for solution of common engineering problemsCO2 Formulate one dimensional finite element equation for simple problems.CO3 Examine 2-D finite element continuum for structural applicationsCO4 Formulate and solve vibration problems using finite element techniques.CO5 Solve 1-D and 2-D heat transfer and fluid flow problems using finite element approach.

Course Name POWER PLANT AND ENERGY ENGINEERINGOn successful completion of the course the students will be able to:

CO1Realize the importance of power requirement, generation and utilization in the present world energyscenario.

CO2Apply the knowledge gained by analyzing the steam power plants, steam generators and gas turbinepower plants, to improve the efficiency and reduce the thermal losses.

CO3Analyze the processes and cycles followed in nuclear power plants and components used in the powerplants and identify the losses to get better efficiency.

CO4Describe the working of various components of diesel power plant and Illustrate the working of gasturbine power plant and its components.

CO5 Apply knowledge about economics of power generation and use of renewable energy.Course Name COMPOSITE MATERIALS


CO1Students become aware of different composite materials, reinforcement materials, matrix materials andtheir usages.

CO2The students will have thorough knowledge of micro & macro structural analysis of orthotropicmaterials, derivation of equations and application to problem solving.

CO3The students will have knowledge about different fabrication techniques for polymer matrixcomposites.

CO4They will have demonstrate skill to evaluate properties and applications of metal matrix compositematerials.

CO5The student will have knowledge on the advanced composite materials, their properties andapplications.

Course Name INTERNSHIP & TECHNICAL SEMINAROn successful completion of the course the students will be able to:

CO1The students will have practical knowledge about various activities like process design, quality controlthat are takes place in industries.

CO2The students will have the skills about effective communication, presentation and report preparation.

CO3 The students are able to improve their problem solving and critical thinking skills.CO4 The students are able to identify the professional standards.CO5 The students are able to create or modify the new technology policies.

Course Name MECHATRONICS LABORATORYOn successful completion of the course the students will be able to:

CO1 Identify the hydraulic and pneumatic systems employed in manufacturing industry.

CO2Apply the principles of Mechatronics and automation for the development of productive and efficientmanufacturing systems.

CO3Use the engineering technique skills and modern engineering tools necessary for practical applications.

CO4Use design principles and develop conceptual, engineering design and fabrication of variouscomponents.

CO5 Simulate the basic electrical, hydraulic and pneumatic system using simulation software.Course Name CAE LABORATORY


CO1Select the method, meshing, analysis and optimize the given problem for structural and thermalapplications.

CO2Conduct structural analyses and selected other analysis like normal modes/natural frequency analysis,harmonic analysis, steady-state heat conduction analysis.

CO3Use professional level finite element software to solve engineering problems in solid mechanics andheat transfer.

CO4Simulate simple kinematic mechanisms and air conditioning system using simulation software.

CO5 Recognize sources of errors in FEA.Course Name DESIGN AND FABRICATION PROJECT

On successful completion of the course the students will be able to:CO1 Use design principles and develop conceptual design of various componentsCO2 Fabricate various components using different manufacturing toolsCO3 Develop skills to be the effective members of teamCO4 Have the knowledge of contemporary issues and modern practicesCO5 Familiarize presentation, communication and team-work skills

Course Name PROCESS PLANNING AND COST ESTIMATIONOn successful completion of the course the students will be able to:

CO1The students can make analyze on the techniques of work study and principles of ergonomics.

CO2The students will know the concept of process planning and cost estimation for various product andprocess of industry.

CO3The students will be familiar with types of estimation, pricing methods and production cost estimation.

CO4The student will have an ability to know about the calculations of finding internal rate of return, netpresent value and payback period.

CO5 The students will have knowledge about estimation of production costs.Course Name MAINTENANCE ENGINEERING


CO1

Analyze the basic concepts of different types of maintenance and selection maintenance methods forvarious types of organizations like product oriented and service oriented sectors based on theunderstanding.

CO2Gain the knowledge of preventive maintenance concept and implementation of PM budget cost controltechniques.

CO3 Know about the working principle of pistol thermometers.CO4 Know the Concept's of repair, replacement and overhaul.CO5 Apply the knowledge on use of computers in maintenance.

Course Name SIX SIGMA AND LEAN MANUFACTURINGOn successful completion of the course the students will be able to:

CO1 Identify key requirements and concepts in lean manufacturing.CO2 Initiate a continuous improvement change program in a manufacturing organization.

CO3Apply the tools in lean manufacturing to analyze a manufacturing system and plan for its importance.

CO4 Manage the manufacturing system to achieve six sigma and sustainability.CO5 Develop a board understanding of lean/ six sigma principles and practices.

Course Name TRIBOLOGYOn successful completion of the course the students will be able to:

CO1 Find the solution for surfaces and friction related problem in automobile component.CO2 Perform wear analysis on machine components using various measuring devices.

CO3 Notice the various types of lubricants and their effect on machine components.CO4 Conduct motion analysis of automotive components using theory of film lubrication.CO5 Apply their knowledge to select the materials for automotive components.

Course Name CRYOGENIC ENGINEERINGOn successful completion of the course the students will be able to:

CO1Be familiar with the properties and applications of cryogenic substances in various field of science.

CO2Analyze the structure of different cryogenic systems and the analytical method for cryogenicthermodynamic cycle for gases and liquid mixture.

CO3 Familiar with the purification of the cryogenic gases.CO4 Interpret the applications of the cryogenic refrigerators.

CO5Design a low-temperature systems and machinery to meet the requirements to ensure their maximumperformance of durability and safety of cryogenics life.

Course Name DESIGN OF MATERIALS HANDLING EQUIPMENTOn successful completion of the course the students will be able to:

CO1The students will be able to gain knowledge on the concepts and benefits of better material handlingsystems.

CO2The students will have knowledge on proper selection, use and care through work area hazardassessments and training.

CO3The course would familiarize the student on the technique to select suitable material handlingequipment and design them based on the need.

CO4The Student will be able to design material handling equipments such as drives of hoisting gears,conveyors, elevators.

CO5 The student will have knowledge on safe shifting of materials in a diary processing operation.Course Name ARTIFICIAL INTELLIGENCE AND EXPERT SYSTEMS

On successful completion of the course the students will be able to:CO1 Know about the production systems and control strategies.CO2 Identify appropriate AI methods to solve given problems.CO3 Acquire skills on unification of algorithms, question answering, natural deduction.CO4 Implement basic AI algorithms.CO5 Implement knowledge on various expert systems.

Course Name DESIGN OF THERMAL EQUIPMENTOn successful completion of the course the students will be able to:

CO1 Gain knowledge on the basics of heat transfer processes in heat exchangers.CO2 Develop the double pipe heat exchanger and analyze various factors.CO3 Optimize the performance of shell and tube heat exchanger.CO4 Analyze the performance of heat exchanger with extended surfaces.CO5 Develop a heat pipe for practical applications.

Semester VIIICourse Name AUTOMOBILE ENGINEERING

On successful completion of the course the students will be able to:CO1 Understand the structure of vehicle chassis and engine component.CO2 Understand the working of various engine auxiliary and emission system.CO3 Impart knowledge about the various transmission systems and their working.CO4 Demonstrate about the working principle of steering, suspension and braking systems.CO5 Learn about the electrical systems and advances in automotive engineering.

Course Name PROJECT WORKOn successful completion of the course the students will be able to:

CO1Use the engineering technical skills and modern engineering tools necessary for practical applications.

CO2Use design principles and develop conceptual, engineering design and fabrication of variouscomponents.

CO3Take up any challenging practical problems and find solution by formulating proper methodology.

CO4 Create the document of the project with correct format and structure.

CO5Gain Practical knowledge about various activities like processes, design, quality control that are takingplace in industries.

Course Name SUPPLY CHAIN MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Gain knowledge on logistics and supply chain management.CO2 Explain the different factors and modes of transportation in logistics management.CO3 Demonstrate the design consideration in supply chain network system.CO4 Understand the revenue management system in supply chain.CO5 Know about role of coordination and Information Technology in supply chain.

Course Name ENGINEERING ECONOMICS AND COST ANALYSISOn successful completion of the course the students will be able to:

CO1 Get knowledge about basics of economics.CO2 Know about make or buy decisions.CO3 Become familiar with cost calculations.CO4 Know the concept of challenger and defender.CO5 Know about how to find the depreciation of an asset.

Course Name FRACTURE MECHANICSOn successful completion of the course the students will be able to:

CO1 Calculate the stress-strain and load-displacement fields around a crack tip.

CO2Identify and formulate stress intensity factor, strain energy release rate, and the stress and strain fieldsaround a crack tip for linear and non linear materials.

CO3Define and predict fracture toughness of materials and be familiar with the experimental methods todetermine the fracture toughness and energy balance.

CO4 Calculate the life calculation for load amplitude.CO5 Design materials and structures using fracture mechanics approaches.

Course Name INDUSTRIAL SAFETY AND HAZARDS MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Understand about safety and hazards regulations and also about industrial hygine.CO2 Understand preventive and protective management from fires and explosion.CO3 Understand hazard identification.CO4 Gain the knowledge on leakage of liquids, vapours, gases, etc.CO5 Prepare a case study on fire fighting and hazard management.

Course Name DESIGN FOR MANUFACTURE AND ASSEMBLYOn successful completion of the course the students will be able to:

CO1 The students will be able to understand the concept of design for manufacture and assembly.CO2 The students will obtain an introduction to materials science and manufacturing processes.

CO3The students will have the experience of preparing detailed process planning to carrying out themanufacturing a product.

CO4 The students will generate and evaluate design concepts.CO5 The students will know the computer application in design for manufacture and assembly.

Course Name NUCLEAR ENGINEERINGOn successful completion of the course the students will be able to:

CO1 Understand the fundamentals of nuclear reactor and nuclear physics.CO2 Illustrate the working principle of nuclear reactor and its components.

CO3Understanding the process of reprocessing techniques and design integrated system involved in system.

CO4 Describe its process to be considered for preparation of reactor products and their design.CO5 Identify the types of nuclear waste.

Course Name OPTIMIZATION TECHNIQUESOn successful completion of the course the students will be able to:

CO1 Use the basic concept of classical optimization techniques for different applications.

CO2 Formulate the linear programming using simplex method.CO3 Define the various non linear programming methods for 1D minimization.CO4 Illustrate the example for dynamic and integer programming problems.CO5 Define the working principle of various nontraditional optimization techniques

Course Name THEORY OF ELASTICITYOn successful completion of the course the students will be able to:

CO1Analyse the stress components in different planes and form differential equations of equilibrium.

CO2 Solve problems related to principal strains, octahedral strains and plane state of strain.CO3 Understand the Airy’s function for different beam of varing load conditions.CO4 Analyse and interpret the stress in Axisymmetric and torsional elements.CO5 Develop the equation of equilibrium under thermal stress and elastic stability condition.


CO1 The Student will get knowledge in the philosophies of management and basic concepts.

CO2The students will have an ability to gain the knowledge on leadership qualities and management toolsof quality and statistical concepts.

CO3The students will be able to have exposure on concepts like Benchmarking and Failure Mode EffectiveAnaysis.

CO4The students will be able to gain knowledge on Quality Function Deployment and Total ProductiveMaintenance.

CO5The students will be able to gain knowledge on the Quality certification procedure on ISO 9000,QS14000 and information on auditing.


CO1 Differentiate the types of disasters, causes and their impact on environment and societyCO2 Assess vulnerability and various methods of risk reduction measures as well as mitigation.CO3 Draw the hazard and vulnerability profile of India, Scenarious in the Indian context.

CO4Know about the role of GIS and Information Technology which is applied to disaster risk management.

CO5 Know about disaster damage assessment, earthquake assessment and forest fire assessment.Course Name BIOMASS ENERGY SYSTEM

On successful completion of the course the students will be able to:CO1 Understand the concept of biomass energy resources and their classifications.CO2 Acquire the knowledge of biomass conversion mechanism and its principles.CO3 Acquire the knowledge of gasification process.CO4 Calculate the biomass digester size, energy output and source required.CO5 Describe the current potential contribution of biodiesel production and their utilization.

Course Name COGENERATION AND WASTE HEAT RECOVERY SYSTEMSOn successful completion of the course the students will be able to:

CO1 Analysis the performance of cogeneration systems.CO2 Compare the performance of various cogeneration systems.CO3 Illustrate the applications of cogeneration technologies.CO4 Design and working principles of waste heat recovery systems.CO5 Analysis the economic aspect of cogeneration systems.

Course Name ENERGY AUDIT AND MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Understand the basics of energy audit management.CO2 Develop the energy efficient electrical and thermal systems to current trends.CO3 Optimize the performance of lighting system and steps for lighting energy conservation.CO4 Design and analyze the co-generation system for current trends.CO5 Improve the methodologies for energy accounting, balancing and savings.

Course Name ENTREPRENEURSHIP AND E-BUSINESSOn successful completion of the course the students will be able to:

CO1The students will understand the necessity of management in the field of engineering and it realizes theimportance of entrepreneurship in the modern world.

CO2

The students will have an ability to define, characteristics and role of SSI in economic Development.Impact of privatization and globalization on SSIs and understand the meaning of project and projectidentification.

CO3

The students are well trained to analyze the parameters of project like project appraisal, identificationof business Opportunities, market feasibility study, technical feasibility study etc.

CO4The students will be able to understand the motivation techniques and the financial analysis inentrepreneurships.

CO5Students will understand the concept of management as a science, art and profession and appreciate therole of planning in management.

Course Name COMPUTATIONAL FLUID DYNAMICSOn successful completion of the course the students will be able to:

CO1 Understand the governing equation, energy equation on viscous fluid flow.CO2 Understand numerical modeling and its role in the field of fluid flow and heat transfer.CO3 Understand the various discritization method, solution procedures and turbulence modelling.CO4 Analyse algorithm for pressure and velocity corrections.

CO5Create confidence to solve complex problems in the field of fluid flow and heat transfer by using highspeed computers.

Course Name MECHANICAL VIBRATIONSOn successful completion of the course the students will be able to:

CO1 Analyze the mathematical model of a linear vibratory system to determine its response.CO2 Obtain linear mathematical models of real life engineering systems.CO3 Use Lagrange’s equations for linear and nonlinear vibratory systems.

CO4Determine vibratory responses of SDOF and MDOF systems to harmonic, periodic and non-periodicexcitation.

CO5 Conduct test by using different vibration measuring device.Program Name Department of MBA

Semester ICourse Name Business Statistics


CO1Comprehend dynamic nature of managerial data and apply statistical tools of Correlation, Regression,Indexing and Time series analysis to such linear as well non linear data.

CO2 Understand the basic Statistical measures of Central Tendency and DispersionCO3 Acquaint with probability based distributions for numerical measure ofuncertaintyCO4 Understand and apply Hypothesis Testing techniques to managerial problems

Course Name Management concepts and practicesOn successful completion of the course the students will be able to:

CO1Explain the historical backdrop and fundamentals of Management thoughts vital for understanding theconceptual frame work of Management as a discipline

CO2Discuss the various concepts of planning, Decision making and controlling to help solving managerialproblems

CO3 Understanding concepts of Ethics, Delegation, Coordination and Team work.CO4 Study and understand management concepts and styles in Global contextCO5 Develop understanding about emerging concepts in management thought and philosophy

Course Name Economic Analysis for Business DecisionsOn successful completion of the course the students will be able to:

CO1Provides knowledge, tools and techniques to make effective economic decisions under conditions ofrisk and uncertainly.

CO2 Determining the factors such as demand and production for pricing criteria.CO3 Determine the cost and profit conditions to cover up for the benefits of markets.

CO4Intends the understanding of various Macro economics and other factors that influence business inIndia

Course Name Organizational Behavior

On successful completion of the course the students will be able to:CO1 Understand and learn the effective interpersonal, team building and leadership skills.

CO2Familiarized to adjust better in organizational settings (by developing an understanding of how and

why others behave in a particular manner).

CO3 Improved the organizational performance through the effective management of human resources.

CO4 Familiarised with the theoretical and practical literature relating to studying organisational behaviour

Course Name Accounting for business decisionsOn successful completion of the course the students will be able to:

CO1

Understand the role of different branches of accounting i.e. Financial Accounting, Cost Accounting andManagement Accounting and able to understand the balance sheets of a Company under Company’sAct, Banking Company and Insurance Company.

CO2 Analyse the Financial Statements through various tools like ratio analysis, fund flow and cash flow etc.

CO3 Prepare the Fund Flow Statement and Working capital.CO4 Prepare the Cash Flow Statement.

CO5Understand the role of recent developments in Budgets and Budgetary Control i.e. Variances ofmaterials & Labor and budgets and role of Zero base budgeting.

Course Name Legal Aspects of BusinessOn successful completion of the course the students will be able to:

CO1 Study the provisions of Law of Contract , Partnership and Sale of Goods Act.CO2 Acquaint with basic negotiable instrumentsCO3 Understand the fundamental provisions of Company Law & Law of Insurance.CO4 Comprehend the basics of Taxation.

Course Name Executive CommunicationOn successful completion of the course the students will be able to:

CO1 Understand the fundamentals, scope and importance of communication in business.CO2 Develop individual reading and listening skills

CO3Develop an ability to communicate correctly and effectively on matters having relevance to day-to-daybusiness operations.

CO4Transform their communication abilities by honing their oral, written, and non verbal communicationskills.

CO5 Develop effective public relations, write resumes, reports and face interviews.Course Name Business Application Software


CO1Understand the fundamental hardware & software components that make up a computer’s hardwareand the role of each of these components

CO2 Understand the Modern Information TechnologyCO3 Understand the difference between an operating system and an application program,

CO4Understand the fundamental spread sheets and state the effect that the use of computer technology hashad on some common products

CO5 Understand the Accounting packages like final accounts , salary statementsSemester II

Course Name Hospitality ManagementCO1 On successful completion of the course the students will be able to:CO2 The ability to strengthen technical writing and speaking




Course Name Operation ResearchOn successful completion of the course the students will be able to:

CO1 Upon completion of the subject, students will be able to understand decision models

CO2Recognize the importance and value of Operations Research and mathematical modeling in solvingpractical problems in industry like transportation and assignment models

CO3 Formulate a managerial decision problem into a mathematical model like sequencing

CO4Able to design new simple models, like: CPM, PERT to improve decision making and develop criticalthinking and objective analysis of decision problems

CO5Understand Operations Research models like replacement problems and apply them to real-lifeproblems;

Course Name Human Resource ManagementOn successful completion of the course the students will be able to:

CO1 Develop the employment relations and knowledge to resolve the issues.CO2 Designing the appreciate role of HR specialist for implementing HRM policies.CO3 Managing the manpower to motivate and attract them to retain in the organization.CO4 Develop the responsibility of employer and legal system to manage the employment relations

Course Name Advanced Financial ManagementOn successful completion of the course the students will be able to:

CO1 Familiarized with the various sources of finance which a business house can mobilize.CO2 Develop the ability to measure the risk and return of the various portfolios.

CO3Implement investment decisions, the process and methods of evaluation of various investmentproposals.

CO4Develop the skills to analyze the impact of various financing alternatives on the working capitalmanagement.

CO5Develop the ability to manage the profit generating long term financing and strike a balance betweenliquidity and profitability

Course Name Marketing Management

On successful completion of the course the students will be able to :CO1 Develop understanding of marketing concepts, philosophies and historical background.

CO2Develop understanding of marketing operations and complexities for students to apply in practicalbusiness situations.

CO3 Understand concepts related to segmentation and positioning strategiesCO4 Understand concepts related to marketing channels, promotion and pricing decisions.

Course Name Management Information SystemOn successful completion of the course the students will be able to:

CO1Understand the leadership role of Information Systems in achieving business competitive advantagethrough informed decision-making.

CO2 Understand the concepts system, application software and programming languages

CO3Apply Management Information Systems knowledge and skills learned to facilitate the acquisition,development, deployment, and management of information systems.

CO4 To gain knowledge in enterprise resource planning and system development life cyclesCourse Name Operations Management

On successful completion of the course the students will be able to:CO1 Understand and appreciate the concept of Operations Management.

CO2Recognise the scope of Operations Management and its role in creating competitive advantage forbusiness organisations.

CO3

Understand the concept and contribution of various constituents of production operations (bothmanufacturing and service) viz. Product design, Process design, Location planning, Layout planning,Capacity planning, Work study, Quality management, Purchasing management and Inventorymanagement towards effective production and operations management.

CO4Acquaint with Tools viz. EOQ, EBQ, MRP and their contribution towards production and operationsmanagement.

CO5 Understand the concept of business analyticsCourse Name Statistical Package for Social Science


CO1 To gain knowledge in descriptive and inferential statisticsCO2 Understand full range of data management system and editing toolsCO3 Understand data mining, text analytics and collaboration deployment

Semester IIICourse Name Strategic Management

On successful completion of the course the students will be able to:CO1 To know historical background and concepts vital for understanding Strategic Management.

CO2Identifying the innovative strategies adopted by organizations to enhance their Strategic position

CO3 Understand the strategy implementation, evaluation and control of business activities.

CO4Study various techniques adopted by the organizations to consolidate and have strategic advantage forinnovative entrepreneurs.

CO5 Study recent developments in the field of Strategic ManagementCourse Name Application of Research Methods in Management

On successful completion of the course the students will be able to:CO1 Comprehend the objectives of research and the steps involved in research process.CO2 Use different data collection methods and sampling design techniques in their own research.CO3 Analyze the collected and processed data with the help of statistical tools.CO4 Generalize and interpret the data and prepare a research report.

Course Name Industrial Relations and Labor LegislationsOn successful completion of the course the students will be able to:

CO1Understand the evolution, concept and scope of social security, social assistance and laws relating to it.

CO2Apply the knowledge related to various acts related to industrial conflicts and collective bargaining asapplicable in India.

CO3 Recall acts related to labour welfare, labour legislations and industrial safety.

CO4Understand the evolution, concept of labour welfare, social welfare and social work related activities ofvarious agencies and labour administration.

Course Name Performance ManagementOn successful completion of the course the students will be able to:

CO1Design an organization’s performance management process that is compliant with law and supportsorganizational mission and strategy.

CO2Compare and contrast various organizational performance management programs and best practicesand define attributes of effective performance management systems.

CO3Employ job-related performance standards and performance indicators that reflect the employee’srange of responsibilities.

CO4

Assess how increased employee involvement can contribute to effective performance and coachemployees to identify career paths and resources available to support individual development.

CO5Identify and communicate appropriate actions with employees based on their performance strengthsand weaknesses

Course Name Training and DevelopmentOn successful completion of the course the students will be able to:

CO1 Understanding the needs and implementation of overall development of organization.CO2 Describing various methods associated with training and development.CO3 Criteria for designing and implementing the training program.

CO4Provides measurements for evaluation of the effectiveness of training program and cost determiningfactors.

Course Name Derivatives ManagementOn successful completion of the course the students will be able to:

CO1 Be familiar with the characteristics of the relevant financial derivative instruments

CO2Understand how financial derivatives are valued based on no arbitrage pricing arguments and risk-neutral valuation methods

CO3Understand how the instruments covered can be used to implement basic market risk managementstrategies, appropriate for corporate applications

CO4Be able to solve basic problems requiring the ability to price derivative instruments and hedge marketrisk based on numerical data and current market conventions

Course Name Security analysis and Portfolio ManagementOn successful completion of the course the students will be able to:

CO1

Understand the basic investment and speculation of primary and secondary financial markets in Indiaand conversant with computation of risk and return measures for financial instruments.

CO2Understand and appreciate the Fundamental and Technical analysis tools for analysing financialsecurities.

CO3 Well versed with the concept of a Portfolio and understand the principle portfolio theories.

CO4 Acquaint and understand portfolio analysis, portfolio evaluation and portfolio revision techniquesCourse Name Merchant Banking and Financial Services

On successful completion of the course the students will be able to:CO1 Apply the rules and regulations of Merchant Banking while handling Financial Services.CO2 Ability to manage the Issues Management and other fee based services.CO3 Ability to provide Fee Based and Fund Based Financial Services

Course Name Retail ManagementOn successful completion of the course the students will be able to:

CO1To understand the central role of retail in industrialised societies, and the impact of key market/retailtrends upon this sector in the local and global contexts.

CO2Identify the role of marketing strategies in the building of retail models and shareholder value in theretail industry

CO3 Evaluate the organization structure through the HRM in retail mix

CO4

Analyse how retail managers can make informed strategic choices in relation to managing channelpartners, retail form (online vs. bricks and mortar), global sourcing, and managing staff to improvestrategic outcomes

Course Name Services MarketingOn successful completion of the course the students will be able to:

CO1Develop understanding among students about various concepts and importance of Services Marketing.

CO2 Understand the contribution of service sector in solving marketing problems.CO3 Identify the role and impact of services on the customers and employees.CO4 Understand the strategies adopted by the organisations like motivation and empowerment.CO5 Enhance knowledge about emerging issues like service quality in the service sector

Course Name Digital Marketing AnalyticsOn successful completion of the course the students will be able to:

CO1 To understand significant traffic diversCO2 To understand search engine marketing and search engine optimizationCO3 Identify the role and impact of e-mail marketing in digital scenarioCO4 To realize Google analytics for take right resolution

Course Name Project ManagementOn successful completion of the course the students will be able to:

CO1Practical applications of project management to formulate strategies allowing organizations to achievestrategic goals

CO2To understand planning and budgeting for risk management and good performance of the organization

CO3Critical-thinking and analytical decision-making capabilities to investigate complex business problemsto propose project-based solutions using project evaluations

CO4 Skills to manage creative teams and project organizations effectively and efficientlyCourse Name Services Operations Management


CO1Enlighten the role of service operations and its relationship with other organisational functions

CO2Bequeath with the necessary skills to be able to examine the various approaches to service operationsmanagement like service design and service quality

CO3Make wider an understanding of service operations productivity, its measurement and relationship withother operational services

CO4 Exhibit the importance tools and techniques in services operations managementCourse Name Supply Chain Management

On successful completion of the course the students will be able to:CO1 To understand the concepts of supply chain managementCO2 Apply knowledge to evaluate and manage an effective supply chain.CO3 To understands the concepts of procurement and inventory managementCO4 Understand the foundational role of logistics as it relates to transportation and warehousing.CO5 To align the management of a supply chain with corporate goals and strategies.

Course Name E-commerceOn successful completion of the course the students will be able to:

CO1 Understand the basic concepts and technologies used in the field of e-commerce

CO2Understand the role of information systems in organizations, the strategic management processes, andthe implications for the management

CO3Develop an understanding of how various security systems work together to accomplish theinformation objectives of an organization

CO4Learn about the importance of managing organizational change associated with payment systems andweb based implementation

Course Name Advanced Database Management SystemOn successful completion of the course the students will be able to:

CO1Understand the needs and concepts of database management systems, spatial database, web database,data warehousing and data mining.

CO2Be able to analyze, modelling & design and evaluate the construct of various advanced databases.

CO3Be able to implement practical solutions to database problems using OO/OR database, spatial database,data warehousing and data mining approaches.

CO4Have the ability to present and discuss issues regarding emerging database technologies like digitalsignature

Course Name Enterprise Resource PlanningOn successful completion of the course the students will be able to:

CO1 Identify the factors that lead to the development and implementation of ERP systemsCO2 To gain knowledge an advantages of implementing an ERP systemCO3 An integrated information system can support effective and efficient business processesCO4 Create process models that assist with improvement like ERP market and ERP Trends

Course Name Data Warehousing and Data MiningOn successful completion of the course the students will be able to:

CO1Evaluate and implement a wide range of emerging and newly-adopted methodologies and technologiesto facilitate the knowledge discovery

CO2 To understand the business analysis using tools like OLAP

CO3Characterize and discriminate data summarization forms and determine data mining functionalities.

CO4Evaluate and select appropriate data-mining algorithms and apply, and interpret and report the outputappropriately.

Course Name Decision and Risk AnalyticsOn successful completion of the course the students will be able to:

CO1Learn decision and risk analysis (D&RA) concepts & terminology that are most used in industry

CO2 Understand the impact of network modeling

CO3Learn specific tools & processes for analysing & making decisions - useful both professionally andpersonally

CO4 Develop a critical-thinking, problem-solving, value-creating approach to decision-makingCourse Name Statistics for Analytics

On successful completion of the course the students will be able to:CO1 To understand the basic concepts of statisticsCO2 To understand a comprehensive set of descriptive statistical methodsCO3 To analysis the various statistical test like rank correlationCO4 Ability to know about the probability and forecasting techniques

Course Name Accounting for HospitalityOn successful completion of the course the students will be able to:

CO1 Define the basic principles and concepts as they relate to practical accounting problems

CO2To understand various financial statement like balance sheet, cash flow and fund flow statements

CO3 To understand the accounting for management decisions in hospitality industry.

CO4Interpret various cost controlling and revenue management to the problems of operating a business inthe hospitality industry

Course Name Business and Hospitality LawsOn successful completion of the course the students will be able to:

CO1To understand the relationship and the relevance of the law to the tourism and hospitality sector

CO2To gain the knowledge of the basic aspects of the law of corporate, commercial and contract law asthey relate to the tourism and hospitality sector

CO3 Ability to understand the industrial law, cyber law, copy rights and consumer protection actCourse Name Event Management


CO1Obtain a sense of responsibility for the multi disciplinary nature of conference and corporate functionof event industry

CO2 Gain confidence and enjoyment from involvement in the dynamic industry of event marketing

CO3Understand management essentials such as developing budgets, critical paths, work breakdownstructures, risk mitigation and contingency planning

CO4 To understand the concepts of event logistics and event designProgram Name M.C.A

Semester ICourse Name DIGITAL FUNDAMENTALS AND COMPUTER ORGANIZATION

On successful completion of the course the students will be able to:CO1 Design trade-offs Basic fundamentals in digital logic & structure of a digital computerCO2 Identify performance issues in processor and memory design of a digital computer.

CO3To Develop independent learning skills and be able to learn more about different computerarchitectures and hardware.

CO4 To articulate design issues in the development of Multiprocessor organization & architectureCourse Name DATA STRUCTURES AND ALGORITHMS


CO1Student will be able to choose appropriate data structure as applied to specified problem definition

CO2Student will be able to handle operations like searching, insertion, deletion, traversing mechanism etc.on various data structures.

CO3 Students will be able to apply concepts learned in various doCO4 mains like DBMS, compiler construction etc.


CO1The model of object oriented programming: abstract data types, encapsulation, inheritance andpolymorphism

CO2Fundamental features of an object oriented language like Java: object classes and interfaces, exceptionsand libraries of object collections

CO3How to take the statement of a business problem and from this determine suitable logic for solving theproblem; then be able to proceed to code that logic as a program written in C++

Course Name ALGORITHMS LAB USING C++On successful completion of the course the students will be able to:

CO1Know the big O, omega, and theta notations and their usage to give asymptotic upper, lower, and tightbounds on time and space complexity of algorithms.

CO2Can use and implement major data structures including binary search trees, balanced search trees,priority-queues, and hash tables.

CO3Can explain and analyze fundamental graph algorithms including depth-first and breadth-first search,single-source and all-pairs shortest paths, and minimum spanning tree.

Course Name INTRODUCTION TO INFORMATION TECHNOLOGYOn successful completion of the course the students will be able to:

CO1 Describe and apply basic concepts of contemporary technologiesCO2 Analyse human and social contexts of technological innovationsCO3 Apply the knowledge of various ICT components to create a prototype of a product/serviceCO4 Identify principles of collaborative work and explain potential conflict resolution techniquesCO5 Participate effectively and creatively in a team environmentCO6 Prepare a professional and comprehensively written IT report within provided parameters

Course Name PROBLEM SOLVING TECHNIQUESOn successful completion of the course the students will be able to:

CO1 Able to design a computational solution for given problemCO2 Able to break a problem in to modules that can be solvedCO3 Able to transform a problem into programCO4 Able to introduce modularity

Course Name SYSTEM SOFTWAREOn successful completion of the course the students will be able to:

CO1Student will understand the role played by system software such as assembler, interpreter, linker,loader and compilers in the development of IT solutions.

CO2 Student will be able to develop elementary assembler and interpreterCourse Name CLIENT SERVER COMPUTING

On successful completion of the course the students will be able to:CO1 Understand the enabling technologies for building Internet and Web database applications.CO2 Understand the different components for developing client/server applications.

CO3Apply the techniques and features of the client/server development languages to construct a databaseapplication based on Internet.

Course Name ELECTRONIC COMMERCEOn successful completion of the course the students will be able to:

CO1 Discuss the e-Commerce process.CO2 Describe an example of system architecture for an e-Business.CO3 List the seven major elements of web design.

CO4Identify and explain fundamental web site tools including design tools, programming tools, and dataprocessing tools.

CO5 Identify the major electronic payment issues and options.CO6 Discuss security issues and explain procedures used to protect against security threats.

Course Name DISCRETE STRUCTURES AND NUMERICAL METHODSOn successful completion of the course the students will be able to:

CO1Students completing this course will be able to express a logic sentence in terms of predicates,quantifiers, and logical connectives.

CO2

Students completing this course will be able to apply the rules of inference and methods of proofincluding direct and indirect proof forms, proof by contradiction, and mathematical induction.

CO3Students completing this course will be able to use tree and graph algorithms to solve problems.

CO4Students completing this course will be able to evaluate Boolean functions and simplify expressionsusing the properties of Boolean algebra.

Course Name BUSINESS PROCESSESOn successful completion of the course the students will be able to:

CO1 describe the basic concept of business process management;CO2 assess the organizational implications of functional and process-centric management;

CO3Illustrate the process of designing and developing a Business Process Management Solution;

CO4

Configure and manage a business process management system with knowledge of the scope andlimitations of such tools; develop an overall understanding of team building and governance ofprocesses in an organization.

Course Name MANAGEMENT INFORMATION SYSTEMS FRAMEWORKOn successful completion of the course the students will be able to:

CO1Describe the major technological, organizational, behavioral, and ethical issues facing today’sinformation systems professional.

CO2 Describe IT strategy formulation and explain its alignment with organizational strategy.

CO3Conduct research on and describe, several current and merging technologies and explain their impacton corporate performance.

CO4Explain the difference between supporting a business with technology and driving a business withtechnology.

CO5Describe ways in which technology can provide an organization with competitive advantages.

CO6Describe how technology facilitates and enhances both operational and strategic decision making in anorganization.

Course Name PRINCIPLES OF MANAGEMENT AND MARKETINGOn successful completion of the course the students will be able to:

CO1

Use an understanding of marketing and the market driven enterprise to differentiate market drivenenterprises from non market driven enterprises in a market economy as a foundation for future coursework and employer selection.

CO2Identify some of the basic approaches to formulating a marketing strategy in order to participateeffectively when working with marketing policy coordinators.

CO3

Identify key stages of the market planning process in order to create marketing plans throughdevelopment of key sections common to most plans, as well as execution of rudimentary primary andsecondary research.

CO4Use knowledge of elements of the marketing mix and the functional disciplines of marketing such asresearch and marketing communications in order to guide future course selections.

CO5

Use understanding of both the product and marketing lifecycle including professional rolesand responsibilities within that lifecycle to guide marketing career selection and to correctly identifykey stakeholders in the business workplace.

Course Name MICROPROCESSORS AND ITS APPLICATIONSOn successful completion of the course the students will be able to:

CO1 Write programs to run on 8086 microprocessor based systems.CO2 Design system using memory chips and peripheral chips for 16 bit 8086 microprocessor.

CO3Understand and devise techniques for faster execution of instructions, improve speed of operations andenhance performance of microprocessors.

CO4 Distinguish between RISC and CISC processors.CO5 Understand multi core processor and its advantages

Course Name NUMERICAL METHODS LABOn successful completion of the course the students will be able to:

CO1Solve large systems of simultaneous linear equations. Find eigenvalues and eigenvectors of a matrix.Use the least-squares method to obtain a function for data analysis.

CO2Find solutions of non-linear equations using bisection method, Newton’s methods and secant methodand implement using a computer.

CO3

Estimate the solutions of systems of first order ordinary differential equations or higher order ordinarydifferential equations using various numerical methods and implement using a computer.

CO4Construct graphical displays of science/engineering data and interpret the role of such displays in dataanalysis.

CO5Apply basic statistical inference techniques, including confidence intervals, hypothesis testing andanalysis of variance, to science/engineering problems.

CO6 Employ appropriate regression models to determine statistical relationships.Course Name OBJECT ORIENTED PROGRAMMING LAB USING C++

On successful completion of the course the students will be able to:CO1 Understand the concepts of object oriented programming like class, objects and inheritanceCO2 Develop OOPs based applications

Course Name OFFICE AUTOMATION LABOn successful completion of the course the students will be able to:

CO1 Students can able to prepare any word document

CO2Students can able to prepare any power point presentation and they can also do any calculation usingMS-Excel.

CO3 They can develop some simple database applicationsCourse Name INFORMATION TECHNOLOGY LAB

On successful completion of the course the students will be able to:CO1 Work with different operating systemsCO2 Work in different browser to access internetCO3 Install various windows applications

Semester IICourse Name OPERATING SYSTEMS

On successful completion of the course the students will be able to:CO1 Analyze the structure of OS and basic architectural components involved in OS design.

CO2Analyze and design the applications to run in parallel either using process or thread models of differentOS

CO3Analyze the various device and resource management techniques for timesharing and distributedsystems

CO4Understand the Mutual exclusion, Deadlock detection and agreement protocols of Distributedoperating system

CO5 Interpret the mechanisms adopted for file sharing in distributed ApplicationsConceptualize the components involved in designing a contemporary OS

Course Name INTERNET AND JAVA PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Understand the fundamentals of HTML.CO2 Able to use of style sheets with HTMLCO3 Understand the concept of OOPs in javaCO4 Able to design any application using swing and java

Course Name DATABASE MANAGEMENT SYSTEMSOn successful completion of the course the students will be able to:

CO1 To learn the basic concepts of DBMSCO2 To Know the concepts of SQLCO3 To understand PL/SQL, Triggers and cursorsCO4 To know the concept of Normalization

Course Name DATABASE MANAGEMENT SYSTEMS LABOn successful completion of the course the students will be able to:

CO1 Design and implement a database schema for a given problem domainCO2 Populate and query a database using SQL DDL/DML commands.CO3 Program in PL/SQL including stored procedures, stored functions, cursors, packages.

CO4 Design and build a GUI application using a 4GLCourse Name SOFTWARE ENGINEERING

On successful completion of the course the students will be able to:CO1 Get an insight into the processes of software development.

CO2Understand the problem domain for developing SRS and various models of software engineering.

CO3 Model software projects into high level design using DFD, UML diagrams.CO4 Measure the process performance using various metrics

Course Name COMPUTER GRAPHICSOn successful completion of the course the students will be able to:

CO1 Explain the basic principles of implementing computer graphics primitives.CO2 Analyze the fundamentals of 2D and 3D computer graphicsCO3 Identify the structure of modern computer graphics systems

Course Name PARALLEL COMPUTING WITH OPENCLOn successful completion of the course the students will be able to:

CO1

Analyse the requirements for programming parallel systems and critically evaluate the strengths andweaknesses of parallel programming models and how they can be used to facilitate the programming ofconcurrent systems.

CO2 Discuss the difference between the major classes of parallel processing systems and design softwaresolutions for a number of parallel processing models.

Course Name PRINCIPLES OF COMPILER DESIGNSOn successful completion of the course the students will be able to:

CO1 Design and Implement Prototype compilerCO2 Apply various optimization techniquesCO3 Use the different compiler construction tool

Course Name UNIX AND SHELL PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 Work confidently in Unix/Linux environment.CO2 Write shell scripts to automate various tasks.CO3 Master the basics of Linux administration

Course Name ORGANIZATION BEHAVIOR AND PROFESSIONAL ETHICSOn successful completion of the course the students will be able to:

CO1 Analyze the origins of organizational behavior, including processes and the consequences.

CO2Distinguish the various theories of leadership, comparing and contrasting them, showing similarities,and differences.

CO3Apply the major theoretical approaches to motivation in designing reward systems that tie reward toperformance in varied organizational settings.

CO4Examine group dynamics and power and influence in organizations, and explain how they are allinterrelated.

Course Name PROBABILITY AND STATISTICSOn successful completion of the course the students will be able to:

CO1 Knowledge about Core Concept of probability theoryCO2 Ability to Understand Basic PrinciplesCO3 Identify Statistical tool box

Course Name ACCOUNTING AND FINANCIAL MANAGEMENTOn successful completion of the course the students will be able to:

CO1 To understand the balance sheet preparation and do analysisCO2 To understand the budget preparation and control of a companyCO3 Helps to decide about the state of affairs of a particular firm / company.CO4 Ensures the preparation of fiscal policies of the organization.CO5 Ensures the factors to be considered in investment policies

Course Name MANAGERIAL ECONOMICSOn successful completion of the course the students will be able to:

CO1 Understand the roles of managers in firms

CO2 Understand the internal and external decisions to be made by managersCO3 Analyze the demand and supply conditions and assess the position of a company

CO4Design competition strategies, including costing, pricing, product differentiation, and marketenvironment according to the natures of products and the structures of the markets.

CO5 Analyze real-world business problems with a systematic theoretical framework.

Make optimal business decisions by integrating the concepts of economics, mathematics and statistics.

Course Name EMBEDDED SYSTEMSOn successful completion of the course the students will be able to:

CO1 Students can able to recognize the classification of embedded systems.

CO2An ability to identify the differences between the general computing system and the embedded system.

CO3 An ability to design a system, component to meet desired needs within realistic constraintsCourse Name OPERATING SYSTEMS LAB

On successful completion of the course the students will be able to:CO1 Ability to implement disk scheduling algorithms.CO2 Familiar with interprocess communication.CO3 Ability to develop shell scripts.

Course Name INTERNET AND JAVA PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Implement the concept of Core JavaCO2 Analyze the working principles of InternetCO3 Generate an Client Side Programming and Web Development

Course Name COMPUTER GRAPHICS LABOn successful completion of the course the students will be able to:

CO1 Create 3D graphical scenes using open graphics library suits.CO2 Implement image manipulation and enhancement.CO3 Create 2D animations using tools.

Course Name FINANCIAL ACCOUNTING USING TALLYOn successful completion of the course the students will be able to:

CO1After successfully qualifying practical examination, students will be awarded certificate to work withwell-known accounting software i.e. Tally ERP.9

CO2

Student will do by their own create company, enter accounting voucher entries including advancevoucher entries, do reconcile bank statement, do accrual adjustments, and also print financialstatements, etc. in Tally ERP.9 software.

CO3 Students do possess required skill and can also be employed as Tally data entry operator.Course Name COMPILER DESIGN LAB

On successful completion of the course the students will be able to:CO1 Implement the different Phases of compiler using toolsCO2 Analyze the control flow and data flow of a typical programCO3 Optimize a given programCO4 Generate an assembly language program equivalent to a source language program

Semester IIICourse Name ADVANCED JAVA PROGRAMMING

On successful completion of the course the students will be able to:CO1 Work with Java I/O streams, collections and GUI based application development.CO2 Work with Web application development using Java Server Faces.CO3 Manipulating the Data with OGNLCO4 Design and develop applications using advanced frameworks.

Course Name COMPUTER NETWORKSOn successful completion of the course the students will be able to:

CO1 Knowledge of basic network theory and layered communication architectures.CO2 Ability to design network topologies.CO3 Ability to solve problems in networking.

Course Name C# & DOT NET PROGRAMMINGOn successful completion of the course the students will be able to:

CO1Explain how C# fits into the .NET platform and analyze the basic structure of a C# application.

CO2 Design and develop Develop programs using C# on .NET.CO3 Web based applications on .NET.

Course Name ADVANCED JAVA PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Become an intermediate or advanced developer of Java.CO2 Write programs on advanced technologies of Java such as Streaming Generic collections.CO3 Implement Server Side Programming and dynamic software components.CO4 Design and Develop GUI based components.CO5 Design and implementation of interactive web sites.

Create MVC applications using advanced frameworks.Course Name SOFTWARE PROJECT MANAGEMENT

On successful completion of the course the students will be able to:CO1 Be familiar with the different methods and techniques used for project management.

CO2Able to demonstrate the effective project execution and control techniques that result in successfulprojects.

CO3 Able to conduct project closure activities and obtain formal project acceptanceCourse Name SOFTWARE TESTING AND QUALITY ASSURANCE

On successful completion of the course the students will be able to:CO1 Explore the test automation concepts and tools.CO2 Test the software by applying the testing techniques to deliver a product free from bugs.CO3 Evaluate the estimation of cost, schedule based on standard metrics.

Course Name ADVANCED DATABASE MANAGEMENT SYSTEMSOn successful completion of the course the students will be able to:

CO1

To understand the basic concepts regarding database, know about query processing and techniquesinvolved in query optimization and understand the concepts of database transaction and relateddatabase facilities including concurrency control, backup and recovery.

CO2

To understand the introductory concepts of some advanced topics in data management like distributeddatabases, data warehousing, deductive databases and be aware of some advanced databases likepartial multimedia and mobile databases.

CO3To understand the difference between DBMS and advanced DBMS and use of advanced databaseconcepts and become proficient in creating database queries.

Course Name SOFTWARE AGENTSOn successful completion of the course the students will be able to:

CO1 Knowledge about Agent DevelopmentCO2 Identify Multi agents and intelligent agentCO3 Able to Understand Agents and SecurityCO4 Knowledge in Agent Application

Course Name WEB GRAPHICSOn successful completion of the course the students will be able to:

CO1 Explain the basic principles of implementing vector and raster graphics.CO2 Analyze the fundamentals of multimedia.CO3 Analyze the structure of vector and raster graphics.

Course Name RESOURCE MANAGEMENT TECHNIQUESOn successful completion of the course the students will be able to:

CO1Understand and apply linear, integer programming to solve operational problem with constraints

CO2Apply transportation and assignment models to find optimal solution in warehousing and Travelling,

CO3 To prepare project scheduling using PERT and CPM

CO4 Identify and analyze appropriate queuing model to reduce the waiting time in queue.CO5 Able to use optimization concepts in real world problems

Course Name HUMAN RESOURCE MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Identify the primary external influences affecting HRM.CO2 Outline the components and the goals of staffing, training and development.CO3 Understand the selection procedure in various organizations.

CO4Understand the practices used to retain the employees and able to evaluate their performance.

CO5 Able to identify the stress and the cause of burn out.Course Name GEOGRAPHICAL INFORMATION SYSTEMS


CO1Apply the fundamental concepts and techniques related to the use of Geographic Information System.

CO2 Apply this knowledge to a wide range of spatial/environmental problems.CO3 Describe GIS data models and spatial data collection.

Course Name IT INFRASTRUCTURE AND ITS MANAGEMENTOn successful completion of the course the students will be able to:

CO1Able to understand the basic concepts and technologies used in the field of management informationsystem.

CO2 Be aware of the ethical, social, and security issues of information systems.

CO3Able to develop an understanding of how various information systems work together to accomplish theinformation objectives of an organization.

Course Name ENERGY AWARE COMPUTINGOn successful completion of the course the students will be able to:

CO1 Writing a code to managing high performance storage space

CO2Ability to innovate Speed Scaling and Processor optimization algorithm for real time application

CO3 Building a Project to assign the real time task for optimized schedulingCO4 Enriching Idea to implement the load balancing real time applications

Course Name C# & DOT NET PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 The students able to create simple web applications and window applications.CO2 To learn fundamentals of window application programming and create a window application.CO3 To develop web applications and learn advanced features of C#.

Course Name ADVANCED DATABASE MANAGEMENT SYSTEMS LABOn successful completion of the course the students will be able to:

CO1 Design to Distributes databaseCO2 mplementation of Parallel database and active databaseCO3 Constructing Knowledge for decisionCO4 A XML schema design

Course Name SOFTWARE TESTING LABOn successful completion of the course the students will be able to:

CO1 Ability to design Software development life cycle and shaping Data modelsCO2 Familiarising to codCO3 Enriching the efficiency to handle Semantic Data Model GeneratorsCO4 Makes easy to handle Selenium software IDECO5 Learn to automate the compatibility testing

Course Name NETWORK PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Use network programming concepts to develop and implement distributed applications.CO2 Develop and implement next generation protocols required for emerging applications.CO3 Model and evaluate performance of networking systems.

Course Name RESOURCE MANAGEMENT TECHNIQUES LAB

On successful completion of the course the students will be able to:CO1 Solve optimization problems using simplex method.CO2 Apply integer programming and linear programming to solve real-life applications.CO3 Use PERT and CPM for problems in project management

Semester IVCourse Name WEB PROGRAMMING

On successful completion of the course the students will be able to:CO1 Acquire Knowledge about Server Side Scripting.CO2 Explore Fundamental Concept of Array and Functions.CO3 Learn and Design Web Page.CO4 Able to design Front End Web Page and Connect to Back End Databases.

Course Name SERVICE ORIENTED ARCHITECTUREOn successful completion of the course the students will be able to:

CO1 Compare different IT architecture.CO2 Analyze and design SOA based applications.CO3 Implement web service and obtain the realization of SOA.CO4 Implement RESTful Services.CO5 Design and implement SOA based Application Integration using BPEL.

Course Name MOBILE COMPUTINGOn successful completion of the course the students will be able to:

CO1 Understand the basics of mobile telecommunication system.CO2 Understand the functionality of each layer.CO3 Acquired the knowledge to use simulator tools and design Ad hoc networks.CO4 Able to develop mobile application.

Course Name WEB PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Gain knowledge about PHP ProgrammingCO2 Explore Concept of Primitive functionsCO3 Acquire knowledge about Session, Cookies and File concept.CO4 Gain knowledge to design Web development on Server Side Scripting.

Course Name DATA WAREHOUSING AND DATA MININGOn successful completion of the course the students will be able to:

CO1 Preprocess the data for mining applicationsCO2 Apply data mining techniques and methods to large data setsCO3 Apply the association rules for mining the dataCO4 Use data mining tools.CO5 Compare and contrast various classifiers

Course Name SOFTWARE ARCHITECTUREOn successful completion of the course the students will be able to:

CO1 Able to develop and evaluate software architectures.CO2 Able to select and use appropriate architectural styles.CO3 Select and use appropriate software design patterns.CO4 Able to know the architectures for emerging technologies.

Course Name CLOUD COMPUTINGOn successful completion of the course the students will be able to:

CO1 Articulate the main concepts, key technologies, strengths and limitations of cloud computingCO2 Identify the architecture, infrastructure and delivery models of cloud computingCO3 Explain the core issues of cloud computing such as security, privacy and interoperability

Course Name SEMANTIC WEBOn successful completion of the course the students will be able to:

CO1 Gain a knowledge about web process.CO2 Practical algorithm implementation using ontology.CO3 With Semantic what can be done in real time environment.

Course Name DATABASE TUNING

On successful completion of the course the students will be able to:CO1 Gain knowledge on the significance of database tuning.CO2 Optimize queries for tuning databases.CO3 Develop tuning based E-Commerce applications.

Course Name AD HOC AND SENSOR NETWORKSOn successful completion of the course the students will be able to:

CO1Explain the concepts, network architectures and applications of ad hoc and wireless sensor networks

CO2 Analyze the protocol design issues of ad hoc and sensor networks

CO3Design routing protocols for ad hoc and wireless sensor networks with respect to some protocol designissues

CO4 Evaluate the QoS related performance measurements of ad hoc and sensor networksCourse Name M-COMMERCE

On successful completion of the course the students will be able to:CO1 Able to apply E - Commerce principles in market place.CO2 Able to apply M - Commerce principles to various business domains.CO3 Understand the theory and applications of M-Commerce in business domain.CO4 Get an exposure to current technological advancements in M-Commerce.

Course Name PROFESSIONAL COMMUNICATIONOn successful completion of the course the students will be able to:





Course Name CUSTOMER RELATIONSHIP MANAGEMENTOn successful completion of the course the students will be able to:

CO1Understanding of the benefits delivered by CRM, the contexts in which it is used, the technologies thatare deployed and how it can be implemented.

CO2Understanding of the Hi-tech and operational Issues in implementing CRM in various aspects.

CO3

Insight into how CRM practices and technologies enhance the achievement of marketing, customeracquisition, retention and development whilst simultaneously supporting broader organizational goals.

Course Name FINANCIAL DERIVATIVESOn successful completion of the course the students will be able to:

CO1Understand how financial derivatives are valued based on no arbitrage pricing arguments and risk-neutral valuation methods

CO2Understand how the instruments covered can be used to implement basic market risk managementstrategies, appropriate for corporate applications

CO3Be able to solve basic problems requiring the ability to price derivative instruments and hedge marketrisk based on numerical data and current market conventions

Course Name XML AND WEB SERVICES LABOn successful completion of the course the students will be able to:

CO1Known about the basic principles of service oriented architecture , its components and techniques

CO2 Understand the architecture of web servicesCO3 Able to design and develop web services using protocolsCO4 Understand the technologies underlying the service designCO5 Known about the Hypermedia application.

Course Name APPLICATION DEVELOPMENT LABOn successful completion of the course the students will be able to:

CO1 Understand various issues pertaining to case tools and object oriented technology.

CO2Acquire techniques to develop enterprise applications using the object oriented and web technology.

CO3 Discover various advanced technologies used to build applications for the enterprise.Course Name DATA MINING LAB


CO1The data mining process and important issues around data cleaning, pre-processing and integration.

CO2Practice the principle algorithms and techniques used in data mining, such as clustering, associationmining, classification and prediction

Course Name REPORT WRITING PRACTICE LABOn successful completion of the course the students will be able to:

CO1 Acquire Language Skills required to Write ReportsCO2 Explore Knowledge in Report Writing ToolsCO3 Able to Write a Report for an Application ProjectsCO4 Known about Thesis Writing

Course Name EXECUTIVE COMMUNICATION LABOn successful completion of the course the students will be able to:



CO3 The ability to interact, translate and delegate information


Semester VCourse Name INTERNET OF THINGS

On successful completion of the course the students will be able to:CO1 Understand the vision of IoT from a global context.CO2 Determine the Market perspective of IoT.CO3 Use of Devices, Gateways and Data Management in IoT.CO4 Building state of the art architecture in IoT.

CO5Application of IoT in Industrial and Commercial Building Automation and Real World DesignConstraints

Course Name MOBILE APPLICATION DEVELOPMENTOn successful completion of the course the students will be able to:

CO1 Knowledge about mobile strategies in business worldCO2 Design Mobile User InterfaceCO3 Implement Android Application using Android SDKCO4 Knowledge about IOS and Windows Phone.

Course Name BIG DATA MANAGEMENTOn successful completion of the course the students will be able to:

CO1 Identify the need for big data analytics for a domain.CO2 Use Hadoop, Map Reduce Framework.CO3 Apply big data analytics for a given problem.CO4 Suggest areas to apply big data to increase business outcome.

Course Name MACHINE LEARNING TECHNIQUESOn successful completion of the course the students will be able to:

CO1 Knowing the importance Regression and how it helps to extract dataCO2 Understanding the real time practices ClusteringCO3 Learning to handle Real samplings

Course Name OPEN SOURCE TECHNOLOGIESOn successful completion of the course the students will be able to:

CO1 Able to understand the concepts of open source languages.

CO2Analyses and model requirements and constraints for the purpose of designing and implementing opensource software in python.

CO3Design and implement programs using open source programming languages for data analysis.

CO4 Able to understand the features of the Web Services.Course Name SYSTEM MODELING AND SIMULATION

On successful completion of the course the students will be able to:CO1 Modeling any given system with rationality.CO2 Predicting the behaviour through fine grained analysis

CO3Develop skills to apply simulation software to construct and execute goal-driven system models.


CO1 Implement basic image processing algorithms using MATLAB tools.CO2 Design an application that incorporates different concepts of Image Processing.CO3 Apply and explore new techniques in the areas of image enhancement- restoration-CO4 Segmentation- compression-wavelet processing and image morphology.CO5 Critically analyze different approaches to implement mini projects.CO6 Explore the possibility of applying Image processing concepts in various domains.

Course Name R PROGRAMMINGOn successful completion of the course the students will be able to:

CO1 R for statistical programming,CO2 Computation, graphics and modeling functions

CO3Use R in an efficient way, fit some basic types of statistical models and use R in their own researchwork.

Course Name INTRA ENTERPRISE COMPUTINGOn successful completion of the course the students will be able to:

CO1 Gain knowledge about Enterprise Overview.CO2 Knowledge about JSTL.CO3 Deploy Java Server Faces.CO4 Design application using JavaMail and MDB.

Course Name BIO INFORMATICSOn successful completion of the course the students will be able to:

CO1 Able to understand biological complexity of genotype.CO2 Knowledge and awareness of the basic principles and concepts of bioinformatics.CO3 Able to retrieve information’s using various algorithms and techniques.

Course Name GREEN COMPUTINGOn successful completion of the course the students will be able to:

CO1 To explain the necessity of Green ITCO2 To outline methodologies for creating Green Assets and their management.CO3 To develop case studies related to Environmentally Responsible Business Strategies.

Course Name DIGITAL MARKETING MANAGEMENTOn successful completion of the course the students will be able to:

CO1 The student will be able to evaluate the risks involved in Digital marketing.CO2 It shall make them be able to attract and retain customers online.CO3 Students will get to know the influence of internet marketing

Course Name SOCIAL NETWORK ANALYSISOn successful completion of the course the students will be able to:

CO1 Work on the internals components of the social networkCO2 Model and visualize the social networkCO3 Mine the behaviour of the users in the social networkCO4 Predict the possible next outcome of the social networkCO5 Mine the opinion of the user.

Course Name MOBILE APPLICATION DEVELOPMENT LABOn successful completion of the course the students will be able to:

CO1 Getting Practices with controls, views and activities

CO2 Knowledge about various resourcesCO3 Create application with database connectionCO4 Be able to develop useful mobile applications for the current scenario.

Course Name OPEN SOURCE TECHNOLOGIES LABOn successful completion of the course the students will be able to:

CO1 Design and implement web applications using open sources.CO2 Demonstrate knowledge of working python.CO3 Able to recognize the benefits and features of open source technologies.CO4 Able use and develop open source packages and to contribute in open source community.

Course Name R PROGRAMMING LABOn successful completion of the course the students will be able to:

CO1 Helps the students to involve in the data extraction for real time need.CO2 R Programming explores the students to handle the statistics in easy manner.CO3 Students learn to manipulate the data according to real time scenario.

Course Name SIMULATION TOOLS LABOn successful completion of the course the students will be able to:

CO1To be able to analyze different transport protocols used for packet communication like TCP and UDP.

CO2 To make students aware about various types of flow and error control techniques.CO3 To make students aware about various types of error detection and correction techniques.

CO4To understand the basic concepts and working principle of open source Network Simulator NS3.

CO5 To understand the basic concepts and working principle of OPNET.Course Name INTRA ENTERPRISE COMPUTING LAB

On successful completion of the course the students will be able to:CO1 Implementation of JSTL.CO2 Web application creation using JSF.CO3 Deploy the Javamail.CO4 Deploy the web services using spring.

Program Outcomes (POs), Program Educational Objectives ...

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