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UGC APPROVED PROGRAMSB.Tech

mitwpu.edu.in

FACULTY OF ENGINEERING& TECHNOLOGY

7th Best Private Institute for Engineering in India (TOI 2020)

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Engineering involves design, development and upgradation of products, systems and processes in every walk of human life. At MIT-WPU, we develop engineers with sound human values and sense of world citizenship. Our objective is to offer students with real life industrial exposure. National and international study tour will offer global exposure to our students. Engineering curriculum is imparted with active learning methods like Problem Based

Learning (PBL) , exper ient ia l learning and collaborative learning. Choice based course selection, capstone projects, Industrial Internships, Professional and Open electives across disciplines offer the much needed core and inter-disciplinary cutting edge knowledge to budding engineers. We are equipped with highly experienced faculty and strong industry-academia connect.

Programme StructureAccording to the structure and syllabi the contents are categorized as:

DE

BS

EC

DC

Engineering Core

Departmental Core

Basic Sciences

DE

Skill Based Courses

HS

Humanities and World

Peace

Departmental Electives

Confluence of Innovation, Application and Excellence in LearningB.Tech

Duration: Four Year, Full-time Program

Credit System: Choice based Credit System, 165+ Credits

Pattern: Trimester System, Twelve Trimesters

A Specimen Day Schedule

Ÿ Research, Explorations and Collaborations

Ÿ World Peace Courses: Yoga, Sports, Ethos, Ethics, Liberal Arts & Life Skills

Ÿ Technology Courses: Theory, Laboratories and Practice

Ÿ Experiential Learning: Capstone Projects, Industrial Internships, Assignments and other activities

https://www.mitwpu.edu.in

Minor in Computer Engineering for Non Computer branches (ECE, Mechanical, Robotics, Civil, Electrical, Chemical, Petroleum, Polymer)

1. Linux based Python Laboratory (1 Credit)

2. Basic IoT Laboratory (2 Credits)

3. Data Science for Engineers (2 + 1 Credits)

Along with regular curriculum MIT-WPU Faculty of Engineering and Technology is introducing new Industry-Relevant Courses in B.Tech for all branches as:

4. Artificial Intelligence (AI) and Machine Learning (ML) (2 + 1 Credits)

Market / Industry- Ready Students:

These credits are in addition to the mandatory 168 credits of the B.Tech Program at MIT-WPU in which the student is admitted.

After the successful completion of 168 + 20 credits, students will have transcripts and grade sheets endorsing their B.Tech in chosen engineering specialization along with a minor in Computer Science & Engineering.

MIT-WPU Faculty of Engineering is offering the option of a minor in Computer Science & Engineering along with pursuing major in their chosen B.Tech specialization. This will bridge the gap between industry and academia. Eligible students will gain a competitive edge by acquiring additional expertise.

The students can take up the minor after the successful completion of their first year.

To earn the minor in Computer Science & Engineering, the student should acquire an additional 20 credits defined for a minor in Computer Science & Engineering.

Learning Beyond ClassroomStudents' Achievements

University from India to qualify at largest international design competition, Formula Student 2018, at Silverstone Circuit, UK

best team in the world at the International Robocon.

best design team in the world at BAJA SAE - Maryland, USA at February 2018

Splendid victories in Smart India Hackathon 2019 (World’s biggest open innovation model by MHRD, AICTE, Persistent & i4C)

www.mitwpu.edu.in

st1

th5

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8

Engineering involves design, development and upgradation of products, systems and processes in every walk of human life. At MIT-WPU, we develop engineers with sound human values and sense of world citizenship. Our objective is to offer students with real life industrial exposure. National and international study tour will offer global exposure to our students. Engineering curriculum is imparted with active learning methods like Problem Based

Learning (PBL) , exper ient ia l learning and collaborative learning. Choice based course selection, capstone projects, Industrial Internships, Professional and Open electives across disciplines offer the much needed core and inter-disciplinary cutting edge knowledge to budding engineers. We are equipped with highly experienced faculty and strong industry-academia connect.

Programme StructureAccording to the structure and syllabi the contents are categorized as:

DE

BS

EC

DC

Engineering Core

Departmental Core

Basic Sciences

DE

Skill Based Courses

HS

Humanities and World

Peace

Departmental Electives

Confluence of Innovation, Application and Excellence in LearningB.Tech

Duration: Four Year, Full-time Program

Credit System: Choice based Credit System, 165+ Credits

Pattern: Trimester System, Twelve Trimesters

A Specimen Day Schedule

Ÿ Research, Explorations and Collaborations

Ÿ World Peace Courses: Yoga, Sports, Ethos, Ethics, Liberal Arts & Life Skills

Ÿ Technology Courses: Theory, Laboratories and Practice

Ÿ Experiential Learning: Capstone Projects, Industrial Internships, Assignments and other activities

https://www.mitwpu.edu.in

Minor in Computer Engineering for Non Computer branches (ECE, Mechanical, Robotics, Civil, Electrical, Chemical, Petroleum, Polymer)

1. Linux based Python Laboratory (1 Credit)

2. Basic IoT Laboratory (2 Credits)

3. Data Science for Engineers (2 + 1 Credits)

Along with regular curriculum MIT-WPU Faculty of Engineering and Technology is introducing new Industry-Relevant Courses in B.Tech for all branches as:

4. Artificial Intelligence (AI) and Machine Learning (ML) (2 + 1 Credits)

Market / Industry- Ready Students:

These credits are in addition to the mandatory 168 credits of the B.Tech Program at MIT-WPU in which the student is admitted.

After the successful completion of 168 + 20 credits, students will have transcripts and grade sheets endorsing their B.Tech in chosen engineering specialization along with a minor in Computer Science & Engineering.

MIT-WPU Faculty of Engineering is offering the option of a minor in Computer Science & Engineering along with pursuing major in their chosen B.Tech specialization. This will bridge the gap between industry and academia. Eligible students will gain a competitive edge by acquiring additional expertise.

The students can take up the minor after the successful completion of their first year.

To earn the minor in Computer Science & Engineering, the student should acquire an additional 20 credits defined for a minor in Computer Science & Engineering.

Learning Beyond ClassroomStudents' Achievements

University from India to qualify at largest international design competition, Formula Student 2018, at Silverstone Circuit, UK

best team in the world at the International Robocon.

best design team in the world at BAJA SAE - Maryland, USA at February 2018

Splendid victories in Smart India Hackathon 2019 (World’s biggest open innovation model by MHRD, AICTE, Persistent & i4C)

www.mitwpu.edu.in

st1

th5

rd3

8

st1 University from India to qualify at largest international design...MECHANICAL

Mechanical engineering is the broadest and most versatile of all engineering disciplines and mechanical engineers play an important role in various industries. Mechanical Engineering Programme is the right blend of academics, industry exposure, and co-curricular activities, offering a vibrant real-life experience to budding engineers. The basic vision is to develop Mechanical Engineers with sound human values and a sense of world citizenship and to develop an all-around personality with a sound technical base with a wide choice for specialization and exposure to the industrial world.

School of Mechanical Engineering has specialized laboratories established in association with TATA Technologies namely Technology and Visualization Center and Advanced Manufacturing Engineering which offers a platform to work in line with Industry 4.0 requirements. The School also has well-equipped l a b o r a t o r i e s l i k e M a t e r i a l Te s t i n g a n d characterization, Tribology, NVH and Renewable Energy, Biomaterials Laboratory, E-Vehicle and Mobility Laboratory which offer Research Projects beyond Curriculum. Our program offers them five tracks of specialization which lead to careers in cutting-edge technologies - Design and Simulation, Energy, Automotive Engineering, Robotics and Automation, and Materials. Mechanical Engineering curriculum is imparted with active learning methods like Problem Based Learning (PBL), Experiential Learning, and Collaborative Learning. Choice-based course selection, capstone projects, and electives across disciplines offer much needed inter-disciplinary approach to budding Mechanical Engineers. Rural immersion, National and industrial tours, and innumerable co-curricular and extra-curricular activities widen their horizons. The school has highly experienced faculty and a strong industry-academia connection. The school encourages students to participate in national/ international technical competitions like Baja, Supra, TIFAN and Robocon, ProKarters, Team DART, Team Hyperloop, ETWDC, and Team Skytroopers which offers real-life problem-solving skills that get toned in vibrant teams.

Why Mechanical Engineering? About the Program:

Learn how to design, develop,

and improve products and systems

th36 Batch

360 Degree Career Opportunities for a Mechanical EngineerMechanical Engineering, being a basic and core branch as well as an integrated and interdisciplinary branch that creates a breakthrough in materials, automation, and computational tools; opened a new frontier to mechanical engineers. Mechanical Engineering Education empowers technical skills along with creative thinking, analytical and leadership

skills. A budding mechanical engineer will have Immediate & long-term employment opportunities in the fields like industrial automation, manufacturing, mining, aerospace, healthcare, and defense.

The opportunities are broadly classified in the following categories

From car chassis to engine transmission, and from emission to controls, Electric/Hybrid Vehicles.

Automotive AerospaceAirplanes, aircraft engines,control systems for airplanes and spacecraft.

MechatronicsPLC and PID Controllers, Smart Systems, Automotive Electronics, Transducers.

Harnessing Solar and Wind Energy, fuel cells, Power Plants.

Energy ConversionEngineeringImplants, Prosthetic devices, Fluidic systems, Bio-materials.

Biomedical Micro Electro Mechanical Systems or MEMSSensors, actuators, micro-power generation.

Environmental ControlHVAC, Air-conditioning, Refrigeration, Clean air systems.

ManufacturingMachining, Machine tools, Prototyping, Microfabrication.

Robots, 3D Printing, ProcessAutomation.

Automation

Majors (Tracks)

Design Engineering

Robotics & Artificial

Intelligence

Energy Engineering

Materials, Manufacturing &

Automation

School of Mechanical Engineering has two centers of excellence with equipment worth 4.5cr. “Technology and Visualization” and “Advanced Manufacturing Engineering” were established in collaboration with TATA Technologies Limited.

School also has Micro-Forming Research Center in Collaboration with ARDB, DRDO, New Delhi in November 2020.

www.mitwpu.edu.in

st1 University from India to qualify at largest international design...MECHANICAL

Mechanical engineering is the broadest and most versatile of all engineering disciplines and mechanical engineers play an important role in various industries. Mechanical Engineering Programme is the right blend of academics, industry exposure, and co-curricular activities, offering a vibrant real-life experience to budding engineers. The basic vision is to develop Mechanical Engineers with sound human values and a sense of world citizenship and to develop an all-around personality with a sound technical base with a wide choice for specialization and exposure to the industrial world.

School of Mechanical Engineering has specialized laboratories established in association with TATA Technologies namely Technology and Visualization Center and Advanced Manufacturing Engineering which offers a platform to work in line with Industry 4.0 requirements. The School also has well-equipped l a b o r a t o r i e s l i k e M a t e r i a l Te s t i n g a n d characterization, Tribology, NVH and Renewable Energy, Biomaterials Laboratory, E-Vehicle and Mobility Laboratory which offer Research Projects beyond Curriculum. Our program offers them five tracks of specialization which lead to careers in cutting-edge technologies - Design and Simulation, Energy, Automotive Engineering, Robotics and Automation, and Materials. Mechanical Engineering curriculum is imparted with active learning methods like Problem Based Learning (PBL), Experiential Learning, and Collaborative Learning. Choice-based course selection, capstone projects, and electives across disciplines offer much needed inter-disciplinary approach to budding Mechanical Engineers. Rural immersion, National and industrial tours, and innumerable co-curricular and extra-curricular activities widen their horizons. The school has highly experienced faculty and a strong industry-academia connection. The school encourages students to participate in national/ international technical competitions like Baja, Supra, TIFAN and Robocon, ProKarters, Team DART, Team Hyperloop, ETWDC, and Team Skytroopers which offers real-life problem-solving skills that get toned in vibrant teams.

Why Mechanical Engineering? About the Program:

Learn how to design, develop,

and improve products and systems

th36 Batch

360 Degree Career Opportunities for a Mechanical EngineerMechanical Engineering, being a basic and core branch as well as an integrated and interdisciplinary branch that creates a breakthrough in materials, automation, and computational tools; opened a new frontier to mechanical engineers. Mechanical Engineering Education empowers technical skills along with creative thinking, analytical and leadership

skills. A budding mechanical engineer will have Immediate & long-term employment opportunities in the fields like industrial automation, manufacturing, mining, aerospace, healthcare, and defense.

The opportunities are broadly classified in the following categories

From car chassis to engine transmission, and from emission to controls, Electric/Hybrid Vehicles.

Automotive AerospaceAirplanes, aircraft engines,control systems for airplanes and spacecraft.

MechatronicsPLC and PID Controllers, Smart Systems, Automotive Electronics, Transducers.

Harnessing Solar and Wind Energy, fuel cells, Power Plants.

Energy ConversionEngineeringImplants, Prosthetic devices, Fluidic systems, Bio-materials.

Biomedical Micro Electro Mechanical Systems or MEMSSensors, actuators, micro-power generation.

Environmental ControlHVAC, Air-conditioning, Refrigeration, Clean air systems.

ManufacturingMachining, Machine tools, Prototyping, Microfabrication.

Robots, 3D Printing, ProcessAutomation.

Automation

Majors (Tracks)

Design Engineering

Robotics & Artificial

Intelligence

Energy Engineering

Materials, Manufacturing &

Automation

School of Mechanical Engineering has two centers of excellence with equipment worth 4.5cr. “Technology and Visualization” and “Advanced Manufacturing Engineering” were established in collaboration with TATA Technologies Limited.

School also has Micro-Forming Research Center in Collaboration with ARDB, DRDO, New Delhi in November 2020.

www.mitwpu.edu.in

MECHANICAL ROBOTICS AND AUTOMATION

Robotics and Automation comprise the design and development of robots to integrate with intelligent control systems. The designing of robotic systems deals with the principles of electromechanical and computer engineering. In today's era, the increased demand of industry needs a professional with added expertise in the field of 'Robotics and Automation.

Mechanical Engineering curriculum is imparted with active learning methods like Problem Based Learning (PBL), Experiential Learning, and Collaborative Learning. Choice-based course selection, capstone projects, and electives across disciplines offer much needed inter-disciplinary approach to budding Mechanical Engineers. Rural immersion, National and industrial tours, and innumerable co-curricular and extra-curricular activities widen their horizons. We are equipped with highly experienced faculty and strong industry-academia connect. The school encourages students to participate in national/ international technical competitions like Baja, Supra, TIFAN and Robocon, ProKarters, Team DART, Team Hyperloop, ETWDC, and Team Skytroopers which offers real-life problem-solving skills that get toned in vibrant teams.

School of Mechanical Engineering has specialized laboratories established in association with TATA Technologies namely Technology and Visualization Center and Advanced Manufacturing Engineering which offers a platform to work in line with Industry 4.0 requirements. The School also has well-equipped laboratories like Signal Processing, Distributed Control Systems, Robotics, and Automation, AI and ML, Machine Vision System, E-Vehicle and Mobility Laboratory which offer Research Projects beyond Curriculum. Our program offers them five tracks of specialization which lead to careers in cutting-edge technologies - Mechanical Design and Simulation, Control Engineering, Materials, Manufacturing and Automation, IoT and Artificial Intelligence, Robot System Building.

Why Mechanical Engineering (Robotics and Automation)?

About the Program:

Design ofRobots

Operationof

Robots

Construction of Robots

Application of Robots

Robotics & Automation

Driving the futureworld of Robotics &

Automation

th36 Batch

360 Degree Career Opportunities for a Robotics & Automation Engineer

The opportunities are classified in the following categories

Mechanical Engineering (Robotics and Automation), being integrated and interdisciplinary branch involving domain knowledge of Mechanical, Electronics and Computer Science, a pass out engineer wil l have Immediate & long term

employment opportunities exist in the fields like industrial automation, manufacturing, mining, aerospace, healthcare and defense.

th4 Batch

School also has Micro-Forming Research Center in Collaboration with ARDB, DRDO, New Delhi in November 2020.

School of Mechanical Engineering has two centers of excellence with equipment worth 4.5cr. “Technology and Visualization” and “Advanced Manufacturing Engineering” were established in collaboration with TATA Technologies Limited.

of RoboticsFundamentals

Design and Development

Mechanisms Application of Compliant Mechanism

AI based Control Systems

Sensors and Actuators

Robot Kinematics & Dynamics Covering Rigid and Flexible Manipulators

Use of HumanoidRobots

Majors (Tracks)

Mechanical Design & Simulation

IOT and Artificial

Intelligence

Materials, Manufacturing & Automation

Control Engineering

Robot System Building

www.mitwpu.edu.in

MECHANICAL ROBOTICS AND AUTOMATION

Robotics and Automation comprise the design and development of robots to integrate with intelligent control systems. The designing of robotic systems deals with the principles of electromechanical and computer engineering. In today's era, the increased demand of industry needs a professional with added expertise in the field of 'Robotics and Automation.

Mechanical Engineering curriculum is imparted with active learning methods like Problem Based Learning (PBL), Experiential Learning, and Collaborative Learning. Choice-based course selection, capstone projects, and electives across disciplines offer much needed inter-disciplinary approach to budding Mechanical Engineers. Rural immersion, National and industrial tours, and innumerable co-curricular and extra-curricular activities widen their horizons. We are equipped with highly experienced faculty and strong industry-academia connect. The school encourages students to participate in national/ international technical competitions like Baja, Supra, TIFAN and Robocon, ProKarters, Team DART, Team Hyperloop, ETWDC, and Team Skytroopers which offers real-life problem-solving skills that get toned in vibrant teams.

School of Mechanical Engineering has specialized laboratories established in association with TATA Technologies namely Technology and Visualization Center and Advanced Manufacturing Engineering which offers a platform to work in line with Industry 4.0 requirements. The School also has well-equipped laboratories like Signal Processing, Distributed Control Systems, Robotics, and Automation, AI and ML, Machine Vision System, E-Vehicle and Mobility Laboratory which offer Research Projects beyond Curriculum. Our program offers them five tracks of specialization which lead to careers in cutting-edge technologies - Mechanical Design and Simulation, Control Engineering, Materials, Manufacturing and Automation, IoT and Artificial Intelligence, Robot System Building.

Why Mechanical Engineering (Robotics and Automation)?

About the Program:

Design ofRobots

Operationof

Robots

Construction of Robots

Application of Robots

Robotics & Automation

Driving the futureworld of Robotics &

Automation

th36 Batch

360 Degree Career Opportunities for a Robotics & Automation Engineer

The opportunities are classified in the following categories

Mechanical Engineering (Robotics and Automation), being integrated and interdisciplinary branch involving domain knowledge of Mechanical, Electronics and Computer Science, a pass out engineer wil l have Immediate & long term

employment opportunities exist in the fields like industrial automation, manufacturing, mining, aerospace, healthcare and defense.

th4 Batch

School also has Micro-Forming Research Center in Collaboration with ARDB, DRDO, New Delhi in November 2020.

School of Mechanical Engineering has two centers of excellence with equipment worth 4.5cr. “Technology and Visualization” and “Advanced Manufacturing Engineering” were established in collaboration with TATA Technologies Limited.

of RoboticsFundamentals

Design and Development

Mechanisms Application of Compliant Mechanism

AI based Control Systems

Sensors and Actuators

Robot Kinematics & Dynamics Covering Rigid and Flexible Manipulators

Use of HumanoidRobots

Majors (Tracks)

Mechanical Design & Simulation

IOT and Artificial

Intelligence

Materials, Manufacturing & Automation

Control Engineering

Robot System Building

www.mitwpu.edu.in

ELECTRICAL & COMPUTER ENGINEERING

In the present era of innovation, the eminent beginning of Industry 4.0 has generated more than ever before opportunities and challenges for the advancement in E lectr ica l and Computer Engineering.

With such progressive evolution, the demand for innovative services and many more challenges are being posed for the Electrical and Computer Engineers, and they need to find new directions to tackle it.

The world has been witnessing incredible advancements in the software segment in the recent past. The developments in machine intelligence, Information and Communication Technologies (ICTs), and sensing devices are making the software and hardware systems smarter like never before by penetrating deep in all the facets right from the power sector, IT/ITES, manufacturing, process, healthcare, agriculture to day-to-day life. At the same time, there are continuous advancements in electric vehicles, energy sector, smart grids and thereby, the complex interfacing of computer and electrical systems is a need of the time. In this context, industries seek engineers who can design and build electrical/electronic systems, and proficient in computing technologies, programming and software tools.

This four-year full-time B.Tech program is designed by considering the international accreditation standards and is divided into twelve trimesters with 168 credits. It includes courses from basic sciences, core engineering, professional and open electives, mini- and capstone project, mandatory internships to humanities and world peace. With an emphasis on the holistic development of the students, the program also includes industry visits, study tours, rural immersion program and several other activities.

B.Tech Electrical and Computer Engineering program at MIT-WPU is a unique interdisciplinary program with a perfect blend of academia, industry, and research. It aims to make the students future-ready to play a crucial role in the era of Industrial Revolution 4.0, and give them a sustainable and ever-growing career. The program exposes the students to the wide variety of advanced technologies and concepts such as electric vehicles, smart grids, automation, algorithms, software programming, data science, artificial intelligence, Internet of Things, cloud computing, cybersecurity, and others.

Why Electrical and Computer Engineering?

About the Program:

A career that is

sparkling with

opportunities

th5 Batch

360 Degree Career Opportunities for the Electrical and Computer Engineer

Majors (Tracks)

Electric Vehicles

Automobile Industries

Smart/Micro Grids

Robotics and Automation

Manufacturing and Process Industries

e-Vehicles Charging Stations

Electronics Industries

Defense Sector

Electrical Equipment Design and Manufacturing

IT/Software Industries

Internet of Things

Artificial Intelligence and Machine Learning

Data Science

Cloud Computing

Metro-train/Smart City Projects

Cyber Security

Airports and Aviation

Healthcare Industries

Renewables Energy Systems

Power Generation, Transmission & Distribution

Embedded Processor Design

Network Security

Space and Satellite

Agriculture

Public Sector Companies

Research Organizations and Universities

and several other sectors…

- Aniruddha AtigreFinal Year B.Tech

I have witnessed an enormous growth curve in myself, not just in academics, but in every aspect of my life while studying in a positive, lively, and peaceful environment in the School of Electrical Engineering, MIT-WPU. Engagement in innovative projects at such an excellent infrastructure having great facilities of design and testing have been indeed a really life-transforming experience for me.

‘‘

‘‘

We feel grateful to be a part of the School of Electrical Engineering. The curriculum is designed so nicely that it helps us to learn new things, theoretically as well as practically. Teachers help us in all best possible ways and relate things with day to day examples so that we can learn faster.

- Akshita JainThird Year B.Tech

‘‘ ‘‘

www.mitwpu.edu.in

Smart Electric Mobility

Artificial Intelligence

Data Analytics

Smart Grid and Energy Systems

Robotics and Industrial

Automation

ELECTRICAL & COMPUTER ENGINEERING

In the present era of innovation, the eminent beginning of Industry 4.0 has generated more than ever before opportunities and challenges for the advancement in E lectr ica l and Computer Engineering.

With such progressive evolution, the demand for innovative services and many more challenges are being posed for the Electrical and Computer Engineers, and they need to find new directions to tackle it.

The world has been witnessing incredible advancements in the software segment in the recent past. The developments in machine intelligence, Information and Communication Technologies (ICTs), and sensing devices are making the software and hardware systems smarter like never before by penetrating deep in all the facets right from the power sector, IT/ITES, manufacturing, process, healthcare, agriculture to day-to-day life. At the same time, there are continuous advancements in electric vehicles, energy sector, smart grids and thereby, the complex interfacing of computer and electrical systems is a need of the time. In this context, industries seek engineers who can design and build electrical/electronic systems, and proficient in computing technologies, programming and software tools.

This four-year full-time B.Tech program is designed by considering the international accreditation standards and is divided into twelve trimesters with 168 credits. It includes courses from basic sciences, core engineering, professional and open electives, mini- and capstone project, mandatory internships to humanities and world peace. With an emphasis on the holistic development of the students, the program also includes industry visits, study tours, rural immersion program and several other activities.

B.Tech Electrical and Computer Engineering program at MIT-WPU is a unique interdisciplinary program with a perfect blend of academia, industry, and research. It aims to make the students future-ready to play a crucial role in the era of Industrial Revolution 4.0, and give them a sustainable and ever-growing career. The program exposes the students to the wide variety of advanced technologies and concepts such as electric vehicles, smart grids, automation, algorithms, software programming, data science, artificial intelligence, Internet of Things, cloud computing, cybersecurity, and others.

Why Electrical and Computer Engineering?

About the Program:

A career that is

sparkling with

opportunities

th5 Batch

360 Degree Career Opportunities for the Electrical and Computer Engineer

Majors (Tracks)

Electric Vehicles

Automobile Industries

Smart/Micro Grids

Robotics and Automation

Manufacturing and Process Industries

e-Vehicles Charging Stations

Electronics Industries

Defense Sector

Electrical Equipment Design and Manufacturing

IT/Software Industries

Internet of Things

Artificial Intelligence and Machine Learning

Data Science

Cloud Computing

Metro-train/Smart City Projects

Cyber Security

Airports and Aviation

Healthcare Industries

Renewables Energy Systems

Power Generation, Transmission & Distribution

Embedded Processor Design

Network Security

Space and Satellite

Agriculture

Public Sector Companies

Research Organizations and Universities

and several other sectors…

- Aniruddha AtigreFinal Year B.Tech

I have witnessed an enormous growth curve in myself, not just in academics, but in every aspect of my life while studying in a positive, lively, and peaceful environment in the School of Electrical Engineering, MIT-WPU. Engagement in innovative projects at such an excellent infrastructure having great facilities of design and testing have been indeed a really life-transforming experience for me.

‘‘

‘‘

We feel grateful to be a part of the School of Electrical Engineering. The curriculum is designed so nicely that it helps us to learn new things, theoretically as well as practically. Teachers help us in all best possible ways and relate things with day to day examples so that we can learn faster.

- Akshita JainThird Year B.Tech

‘‘ ‘‘

www.mitwpu.edu.in

Smart Electric Mobility

Artificial Intelligence

Data Analytics

Smart Grid and Energy Systems

Robotics and Industrial

Automation

ELECTRONICS & COMMUNICATION

In the past three decades, we have seen a drastic growth in electronics, communication and computing, giving birth to Information and Communication Technologies (ICT). The electronic devices and hardware are getting smaller and more intelligent with the help of advances in network and software technologies. Modern communication needs have made the internet truly pervasive by means of the Internet of Things (IoT). The role of qualified Electronics and Communication Engineers has become critical in automation, control, core manufacturing, transport, water, environment, pharmaceut ical , food processing, d isaster management, smart cities and many others. Broadband and ICT technologies have a unique potential to meet the United Nation’s sustainable development goals, SDGs, by 2030.

An electronics and Communication Engineer has opportunities of work in the field of electronic materials, devices and circuits, micro-controllers and the i r in ter fac ing dev ices , communicat ion technologies and related signal processing, and development of efficient software tools to drive them.

Th e B .Te c h P ro g ra m i n E l e c t ro n i c s a n d Communication Engineering at MIT-WPU is unique in academic framework and content del ivery mechanism. The structure and syllabus is designed by noted Academicians, Researchers, and Industry experts. It strikes a balance of science, mathematics, engineering and technology along with humanities, social sciences, professional, and industry practices, ensur ing the students emerge as winning personalities at the end of four years.

In order to tackle the challenges and leverage the opportunities in the fastest growing electronics, networking and communication industry, MIT-World Peace University has designed a unique Bachelor of Technology (B. Tech.) Program in Electronics and Communication Engineering with emphasis on life skills development and world peace. This Four year full-time degree provides comprehensive theoretical, practical and real life knowledge of electronics and communication to match the current and future needs of the Industry.

Why Electronics and Communication Engineering? About the Program:

On the CuttingEdge of Communication

Ÿ State-of-the-art infrastructure

Ÿ Opportunity to work on interdisciplinary projects

Ÿ Effective mentoring scheme

Ÿ Industrial visit to realize live industrial scenario and requirements

Ÿ Scholarships

Ÿ Perfect blend of Academia, Industry, and Research

Ÿ Curriculum delivered through highly qualified and experienced faculty

Ÿ Internship/ Industry project

Ÿ On-campus Incubation Centre to nurture the start-ups

Key features of the program are:

th35 Batch

360 Degree Career Opportunities for an Electronics and Communication Engineer

Majors (Tracks)

Communication Engineering - IoT

Signal and Image Processing –

Computer Vision

Artificial Intelligence

VLSI & Embedded

Applied Electronics

Embedded Processor Design Engineer

Robotics and Automation

Automobile Industries

Electronics Industries: Design and Fabrication

Manufacturing and Process Industries

Computer Hardware Engineer

Defense Sector

Research Organizations

Computer Network Architect

Computer System Analyst

Renewables Energy Systems

Wireless Area Networks

Information Security Analyst

Network Security

Space and Satellite

Universities

Network planning Engineer

Communication Engineer

Internet of Things

Machine Learning Engineer

Software Engineer

Software Architect

Information Systems Manager

Public Sector Companies

Data Scientist

Data Analyst and several other sectors…

School also has a Centre of Excellence in IoT that offers an immersive and interactive environment for development of IoT-based applications. The laboratory is equipped with state-of-art hardware and software platforms required for design of

connected devices and cyber physical systems. The lab has equipment from Texas Instruments, NVIDIA, Intel, etc.

Artificial Intelligence has offered great potential and scope for the optimization of the electronics industry. School of ECE has a Center of Excellence in Artificial Intelligence and Machine Learning, a well-equipped AICTE funded laboratory under MODROB grant. The main goal of the Centre is to create future-ready AI professionals, enhance the research in the area and implementation of cost-effective products for the benefit of the society. The laboratory consists of equipment like AI NVIDIA LiDAR RoboEX and Dell Power edge R440. These modern facilities provide extensive computing support through modeling, simulation and optimization of algorithms for developing applications in inter and intradisciplinary domains.

Ÿ Design and Development of Multisensory Smart Assistive Technology for Blind (Department of Science and Technology (DST), Govt. of India)

Ÿ Development of Algorithm for Analysis of Vegetation Dynamics (ISRO)

Ÿ Modification of TW3 RUS for Bone Age Assessment (Department of Science and Technology (DST), Govt. of India)

Ÿ Yield Prediction and Quality Assessment of Grapes in Vineyard Using LiDAR Technology (Department of Science and Technology (DST) under the Women Scientists Scheme KIRAN)

School has funded projects from DST as well as ISRO worth Rs. 1 Cr. Covering various domains of Electronics and Communication as listed below;

www.mitwpu.edu.in

ELECTRONICS & COMMUNICATION

In the past three decades, we have seen a drastic growth in electronics, communication and computing, giving birth to Information and Communication Technologies (ICT). The electronic devices and hardware are getting smaller and more intelligent with the help of advances in network and software technologies. Modern communication needs have made the internet truly pervasive by means of the Internet of Things (IoT). The role of qualified Electronics and Communication Engineers has become critical in automation, control, core manufacturing, transport, water, environment, pharmaceut ical , food processing, d isaster management, smart cities and many others. Broadband and ICT technologies have a unique potential to meet the United Nation’s sustainable development goals, SDGs, by 2030.

An electronics and Communication Engineer has opportunities of work in the field of electronic materials, devices and circuits, micro-controllers and the i r in ter fac ing dev ices , communicat ion technologies and related signal processing, and development of efficient software tools to drive them.

Th e B .Te c h P ro g ra m i n E l e c t ro n i c s a n d Communication Engineering at MIT-WPU is unique in academic framework and content del ivery mechanism. The structure and syllabus is designed by noted Academicians, Researchers, and Industry experts. It strikes a balance of science, mathematics, engineering and technology along with humanities, social sciences, professional, and industry practices, ensur ing the students emerge as winning personalities at the end of four years.

In order to tackle the challenges and leverage the opportunities in the fastest growing electronics, networking and communication industry, MIT-World Peace University has designed a unique Bachelor of Technology (B. Tech.) Program in Electronics and Communication Engineering with emphasis on life skills development and world peace. This Four year full-time degree provides comprehensive theoretical, practical and real life knowledge of electronics and communication to match the current and future needs of the Industry.

Why Electronics and Communication Engineering? About the Program:

On the CuttingEdge of Communication

Ÿ State-of-the-art infrastructure

Ÿ Opportunity to work on interdisciplinary projects

Ÿ Effective mentoring scheme

Ÿ Industrial visit to realize live industrial scenario and requirements

Ÿ Scholarships

Ÿ Perfect blend of Academia, Industry, and Research

Ÿ Curriculum delivered through highly qualified and experienced faculty

Ÿ Internship/ Industry project

Ÿ On-campus Incubation Centre to nurture the start-ups

Key features of the program are:

th35 Batch

360 Degree Career Opportunities for an Electronics and Communication Engineer

Majors (Tracks)

Communication Engineering - IoT

Signal and Image Processing –

Computer Vision

Artificial Intelligence

VLSI & Embedded

Applied Electronics

Embedded Processor Design Engineer

Robotics and Automation

Automobile Industries

Electronics Industries: Design and Fabrication

Manufacturing and Process Industries

Computer Hardware Engineer

Defense Sector

Research Organizations

Computer Network Architect

Computer System Analyst

Renewables Energy Systems

Wireless Area Networks

Information Security Analyst

Network Security

Space and Satellite

Universities

Network planning Engineer

Communication Engineer

Internet of Things

Machine Learning Engineer

Software Engineer

Software Architect

Information Systems Manager

Public Sector Companies

Data Scientist

Data Analyst and several other sectors…

School also has a Centre of Excellence in IoT that offers an immersive and interactive environment for development of IoT-based applications. The laboratory is equipped with state-of-art hardware and software platforms required for design of

connected devices and cyber physical systems. The lab has equipment from Texas Instruments, NVIDIA, Intel, etc.

Artificial Intelligence has offered great potential and scope for the optimization of the electronics industry. School of ECE has a Center of Excellence in Artificial Intelligence and Machine Learning, a well-equipped AICTE funded laboratory under MODROB grant. The main goal of the Centre is to create future-ready AI professionals, enhance the research in the area and implementation of cost-effective products for the benefit of the society. The laboratory consists of equipment like AI NVIDIA LiDAR RoboEX and Dell Power edge R440. These modern facilities provide extensive computing support through modeling, simulation and optimization of algorithms for developing applications in inter and intradisciplinary domains.

Ÿ Design and Development of Multisensory Smart Assistive Technology for Blind (Department of Science and Technology (DST), Govt. of India)

Ÿ Development of Algorithm for Analysis of Vegetation Dynamics (ISRO)

Ÿ Modification of TW3 RUS for Bone Age Assessment (Department of Science and Technology (DST), Govt. of India)

Ÿ Yield Prediction and Quality Assessment of Grapes in Vineyard Using LiDAR Technology (Department of Science and Technology (DST) under the Women Scientists Scheme KIRAN)

School has funded projects from DST as well as ISRO worth Rs. 1 Cr. Covering various domains of Electronics and Communication as listed below;

www.mitwpu.edu.in

ELECTRONICS & COMMUNICATION

Artificial Intelligence and Machine Learning (AI-ML) are the fields that combine Electronics (Devices) and Programming (Software). AI-enabled electronics is futuristic technology. Developing electronic devices making use of the capabilities of Artificial Intelligence and Machine Learning, is the focus of many big companies. Many areas in the electronics industry are benefited due to the hand holding of Electronics and Artificial Intelligence & Machine Learning, like R&D, Manufacturing, Security, Entertainment, etc. to name a few.

Getting a degree in Electronics and Communication Engineering along with the specialized subjects in AI-ML will be an advantage for the student and an asset for the company that hires the student.

As technology enables a connected world with highly intelligent devices, AI hardware design and development will take centre-stage Demand for professionals in systems design, board design, integration, testing etc. will re-energize the engineering streams of electrical, electronics and instrumentation. This job ready program with Cutting edge curriculum

developed in consultation with leading industry experts and overseas faculty opens up well paid employment opportunities as AI Architect, Data Scientist, Business Analyst, ML Engineer, Product Analyst and many more.

MIT-World Peace University has designed a unique Bachelor of Technology (B.Tech.) Program in Electronics and Communication Engineering with specialization in AI-ML, giving sufficient emphasis on life skills development and world peace. The program has two-fold advantage of helping students in gaining broader understanding of ECE discipline and acquiring competitive edge knowledge of AI-ML techniques. This four-year full-time degree provides comprehensive theoretical, practical and real-life knowledge of electronics and communication and AI-ML domain to match the current and future needs of the industry. This program will build foundations to identify, formulate and design intelligent solutions catering various fields like computer vision, robotics, automotive e lectronics , b iomedical s ignal processing, health care, human computer interface and business solutions etc. The curriculum comprises of foundation, core, electives, and unique courses related to World Peace along with live projects for practical knowledge. The program ensures industry readiness by allowing to work on real world projects and also offers career guidance

Why Electronics & Communication Engineering (Artificial Intelligence &Machine Learning)?

About the Program:360 Degree Career Opportunities for an Electronics & Communication Engineer

Majors (Tracks)

Edge Intelligence

AI in Healthcare

AI Computing Platform

Deep Learning Architectures

Augmented and Virtual Reality

Ÿ Design and Development of Multisensory Smart Assistive Technology for Blind (Department of Science and Technology (DST), Govt. of India)

Centre of Excellence in IoT :The centre of excellence offers an immersive and interactive environment for development of IoT-based applications. The laboratory is equipped with state-of-art hardware and software platforms required for design of

connected devices and cyber physical systems. The lab has equipment from Texas Instruments, NVIDIA, Intel, etc.

School has received funds from DST as well as ISRO worth RS 1 Cr. for the following projects;

Ÿ Modification of TW3 RUS for Bone Age Assessment (Department of Science and Technology (DST), Govt. of India)

Ÿ Yield Prediction and Quality Assessment of Grapes in Vineyard Using LiDAR Technology (Department of Science and Technology (DST) under the Women Scientists Scheme KIRAN)

AICTE funded Center of Excellence in Artificial Intelligence (AI) and Machine Learning (ML) laboratory under MODROB grant. The main goal of this laboratory is to enhance the research in the area of AI, ML, Deep Learning (DL) and implementation on various platforms to come up with the cost effective products for the benefit of the society. The laboratory consists of AI, NVIDIA, LiDAR, RoboEX and Dell Poweredge R440. These modern facilities will be used for development of AI and ML laboratory, along with extensive computing support through modeling, simulation and optimization of algorithms for developing applications for visually impaired people, video surveillance, self-driving cars, etc . Ÿ Development of Algorithm for Analysis of

Vegetation Dynamics (ISRO)

www.mitwpu.edu.inArtificial Intelligence & Machine Learning

AI Architect

Data Scientist

Business Analyst

ML Engineer

Product Analyst

Machine Learning Engineer

Big Data Scientist

Artificial Intelligence Engineer

Research Engineer - Artificial Intelligence

Data and AI Consultant

Robotics Professional

Software Developer or Python developer-Machine Learning/NLP

Speech Scientist-Artificial Intelligence/Machine Learning

Image processing Engineer-Artificial Intelligence/Machine Learning

Data Engineer

Data Analyst

NLP (Natural Language Processing) Engineer

Computer Vision Engineer

Data Architect

Big Data & AI Architect

Data and AI Consultant

Robotics Professional

Software Engineer

Machine Learning Architect

Deep Learning Engineer

Big Data Engineer

Business Intelligence Developer

Research Scientist

Robotics Scientist

Human-Centered Machine Learning Designer

ELECTRONICS & COMMUNICATION

Artificial Intelligence and Machine Learning (AI-ML) are the fields that combine Electronics (Devices) and Programming (Software). AI-enabled electronics is futuristic technology. Developing electronic devices making use of the capabilities of Artificial Intelligence and Machine Learning, is the focus of many big companies. Many areas in the electronics industry are benefited due to the hand holding of Electronics and Artificial Intelligence & Machine Learning, like R&D, Manufacturing, Security, Entertainment, etc. to name a few.

Getting a degree in Electronics and Communication Engineering along with the specialized subjects in AI-ML will be an advantage for the student and an asset for the company that hires the student.

As technology enables a connected world with highly intelligent devices, AI hardware design and development will take centre-stage Demand for professionals in systems design, board design, integration, testing etc. will re-energize the engineering streams of electrical, electronics and instrumentation. This job ready program with Cutting edge curriculum

developed in consultation with leading industry experts and overseas faculty opens up well paid employment opportunities as AI Architect, Data Scientist, Business Analyst, ML Engineer, Product Analyst and many more.

MIT-World Peace University has designed a unique Bachelor of Technology (B.Tech.) Program in Electronics and Communication Engineering with specialization in AI-ML, giving sufficient emphasis on life skills development and world peace. The program has two-fold advantage of helping students in gaining broader understanding of ECE discipline and acquiring competitive edge knowledge of AI-ML techniques. This four-year full-time degree provides comprehensive theoretical, practical and real-life knowledge of electronics and communication and AI-ML domain to match the current and future needs of the industry. This program will build foundations to identify, formulate and design intelligent solutions catering various fields like computer vision, robotics, automotive e lectronics , b iomedical s ignal processing, health care, human computer interface and business solutions etc. The curriculum comprises of foundation, core, electives, and unique courses related to World Peace along with live projects for practical knowledge. The program ensures industry readiness by allowing to work on real world projects and also offers career guidance

Why Electronics & Communication Engineering (Artificial Intelligence &Machine Learning)?

About the Program:360 Degree Career Opportunities for an Electronics & Communication Engineer

Majors (Tracks)

Edge Intelligence

AI in Healthcare

AI Computing Platform

Deep Learning Architectures

Augmented and Virtual Reality

Ÿ Design and Development of Multisensory Smart Assistive Technology for Blind (Department of Science and Technology (DST), Govt. of India)

Centre of Excellence in IoT :The centre of excellence offers an immersive and interactive environment for development of IoT-based applications. The laboratory is equipped with state-of-art hardware and software platforms required for design of

connected devices and cyber physical systems. The lab has equipment from Texas Instruments, NVIDIA, Intel, etc.

School has received funds from DST as well as ISRO worth RS 1 Cr. for the following projects;

Ÿ Modification of TW3 RUS for Bone Age Assessment (Department of Science and Technology (DST), Govt. of India)

Ÿ Yield Prediction and Quality Assessment of Grapes in Vineyard Using LiDAR Technology (Department of Science and Technology (DST) under the Women Scientists Scheme KIRAN)

AICTE funded Center of Excellence in Artificial Intelligence (AI) and Machine Learning (ML) laboratory under MODROB grant. The main goal of this laboratory is to enhance the research in the area of AI, ML, Deep Learning (DL) and implementation on various platforms to come up with the cost effective products for the benefit of the society. The laboratory consists of AI, NVIDIA, LiDAR, RoboEX and Dell Poweredge R440. These modern facilities will be used for development of AI and ML laboratory, along with extensive computing support through modeling, simulation and optimization of algorithms for developing applications for visually impaired people, video surveillance, self-driving cars, etc . Ÿ Development of Algorithm for Analysis of

Vegetation Dynamics (ISRO)

www.mitwpu.edu.inArtificial Intelligence & Machine Learning

AI Architect

Data Scientist

Business Analyst

ML Engineer

Product Analyst

Machine Learning Engineer

Big Data Scientist

Artificial Intelligence Engineer

Research Engineer - Artificial Intelligence

Data and AI Consultant

Robotics Professional

Software Developer or Python developer-Machine Learning/NLP

Speech Scientist-Artificial Intelligence/Machine Learning

Image processing Engineer-Artificial Intelligence/Machine Learning

Data Engineer

Data Analyst

NLP (Natural Language Processing) Engineer

Computer Vision Engineer

Data Architect

Big Data & AI Architect

Data and AI Consultant

Robotics Professional

Software Engineer

Machine Learning Architect

Deep Learning Engineer

Big Data Engineer

Business Intelligence Developer

Research Scientist

Robotics Scientist

Human-Centered Machine Learning Designer

CIVIL

Being practitioner of oldest discipline of engineering, work of a civil engineer can be seen omnipresent. From smallest hut to huge eye thrilling structures, civil engineers manifest their work invoking art, science and ethics. Civil engineers conceive, design, build, monitor, operate and maintain infrastructure, transportation and public utility projects.

The B.Tech School of Civil Engineering is a 12 trimester’s program having Choice Based Credit System Pattern, software learning with industry training to make industry ready engineer. The School promotes academic excellence for solving problems in civil and environmental engineering and also promote higher education, research, innovation and ent repreneursh ip amongst graduates fo r contributing in infrastructure development. Several MOOCS and interdisciplinary courses are included in the program to boost competencies in graduates.

Why Civil Engineering? About the Program:

Construct future living spaces

th36 Batch

Majors (Tracks)

Infrastructure, Construction Engineering & Management.

Structural Analysis & Design,

Materials

Geotechnical and

Foundation Engineering

Transportation (Roads, Bridges, Railway, Airport,

Docks and Harbors)

Water Resources

Engineering

Ÿ Structural dynamic laboratory funded by AICTE, MODROB is stated in school of Civil engineering for testing Seismic response assessment of existing Civil Engineering Structures.Ÿ There are active Memorandum of Understandings

(MoU) fo r co l l aborat ive research w i th

organizations like, PCERF, BAI, KL Structures USA, BSDC College UK, Plymouth University UK.

Ÿ At MIT WPU, the school has Centre of Excellence for ‘ Innovative Design and Construction Technology, in collaboration with the building science department of Politecnico De Milano of Italy.

360 Degree Career Opportunities for Civil Engineer

Irrigation

Dams

Canals

Hydropower

Roads

Railways

Buildings

Industrial Structures

Bridges

Docks

Harbours

Air fields

Tunnels

Environmental Engineering (including Water Supply and Wastewater Treatment Systems) etc.

In Several Government organizations like PWD, CPWD, Banking

Consultancy (Structural, Environmental, Construction Management, Surveying)

Software Competent Designing

MIT-WPU and Nottingham Trent University, UK, have signed a progression agreement, which will benefit our B.Tech Civil Engineering students to take 4+1 progression route for one of the following six MSc Courses offered by its School of Architecture, Design and Build Environment:

Msc Construction ManagementMSc Project Management (Construction)MSc Quantity Surveying

MSc Structural Engineering with MaterialsMsc Civil Engineering

MSc Structural Engineering with Management

This is an excellent opportunity for Civil Engineering students, which will broaden their horizons for higher education.

www.mitwpu.edu.in

CIVIL

Being practitioner of oldest discipline of engineering, work of a civil engineer can be seen omnipresent. From smallest hut to huge eye thrilling structures, civil engineers manifest their work invoking art, science and ethics. Civil engineers conceive, design, build, monitor, operate and maintain infrastructure, transportation and public utility projects.

The B.Tech School of Civil Engineering is a 12 trimester’s program having Choice Based Credit System Pattern, software learning with industry training to make industry ready engineer. The School promotes academic excellence for solving problems in civil and environmental engineering and also promote higher education, research, innovation and ent repreneursh ip amongst graduates fo r contributing in infrastructure development. Several MOOCS and interdisciplinary courses are included in the program to boost competencies in graduates.

Why Civil Engineering? About the Program:

Construct future living spaces

th36 Batch

Majors (Tracks)

Infrastructure, Construction Engineering & Management.

Structural Analysis & Design,

Materials

Geotechnical and

Foundation Engineering

Transportation (Roads, Bridges, Railway, Airport,

Docks and Harbors)

Water Resources

Engineering

Ÿ Structural dynamic laboratory funded by AICTE, MODROB is stated in school of Civil engineering for testing Seismic response assessment of existing Civil Engineering Structures.Ÿ There are active Memorandum of Understandings

(MoU) fo r co l l aborat ive research w i th

organizations like, PCERF, BAI, KL Structures USA, BSDC College UK, Plymouth University UK.

Ÿ At MIT WPU, the school has Centre of Excellence for ‘ Innovative Design and Construction Technology, in collaboration with the building science department of Politecnico De Milano of Italy.

360 Degree Career Opportunities for Civil Engineer

Irrigation

Dams

Canals

Hydropower

Roads

Railways

Buildings

Industrial Structures

Bridges

Docks

Harbours

Air fields

Tunnels

Environmental Engineering (including Water Supply and Wastewater Treatment Systems) etc.

In Several Government organizations like PWD, CPWD, Banking

Consultancy (Structural, Environmental, Construction Management, Surveying)

Software Competent Designing

MIT-WPU and Nottingham Trent University, UK, have signed a progression agreement, which will benefit our B.Tech Civil Engineering students to take 4+1 progression route for one of the following six MSc Courses offered by its School of Architecture, Design and Build Environment:

Msc Construction ManagementMSc Project Management (Construction)MSc Quantity Surveying

MSc Structural Engineering with MaterialsMsc Civil Engineering

MSc Structural Engineering with Management

This is an excellent opportunity for Civil Engineering students, which will broaden their horizons for higher education.

www.mitwpu.edu.in

CIVIL

The program provide a range of technologies that can be applied to solve infrastructure problems associated with ageing infrastructure and increasing demands. The potential for infrastructure and urban improvement remains unrealized, however, due to technical, financial, and social constraints and criticisms that limit the implementation of smart cities concepts for infrastructure management. The smart technologies including sensors, crowdsourcing and citizen science, actuators, data transmission, Internet of Things, big data analytics, data visualization, and blockchain, which can be used for infrastructure management. Gaps in the application of smart technologies for infrastructure systems are identified, and we highlight how the civil engineering profession can adopt new roles toward the deve lopment of smart in f rast ructure and construction management applications. These roles are:

4) Manager of Risk: Civil engineers should manage existing and growing risks of natural disasters, emergencies, and climate change; they should also manage new vulnerabilities in the privacy and security of individuals and households that are introduced through smart technologies; and

5) Leader and Decision Maker: Civil engineers can take a lead in smart infrastructure discussions and policy development.

1) Master Designer: Civil engineers can identify ready applications of enabling technologies to improve the delivery of urban resources and services;

2) Steward: Civil engineers must account for both the environmental and societal impacts of smart infrastructure applications;

3) Innovator and integrator: Civil engineers should integrate across diverse sectors and groups of experts to develop smart infrastructure programs;

The one of the oldest departments at MIT-WPU Established as Department of Civil Engineering in the year 1983. Over the years the department has nurtured young minds to produce bright and competent civil engineers. The department has faculty expertise in almost the entire spectrum of civil engineering and in addition, the course curriculum includes the smart technologies including sensors, crowdsourcing and citizen science, actuators, data transmission, Internet of Things, big data analytics, data visualization, and blockchain, which can be used for smart infrastructure and construct ion management, etc. and Peace courses taught by experienced and eminent faculties. MIT-WPU consistently tops in the ranking of engineering colleges and is widely recognized in India and abroad for its excellence in education. The salient features include fully equipped laboratories- Heavy structural and structural dynamic laboratories and also Skill-Based Certifications like Oracle’s Primavera, Microsoft Project, Bentley’s STADD PRO, ETAB, Autodesk’s AutoCAD, BIM Architecture, Autodesk Revit, Enterprise Resource Planning (ERP) are included in the academics. The school has the academic collaborations with Indian green building council (IGBC), ISSE student chapter pune and Constro.

Why Civil (Smart Infrastructure & Construction Engineering) ?

About the Program:

Majors (Tracks)

Intelligent Transport System

Sustainable Construction Materials &

Management

Intelligent Irrigation

Technologies

360 Degree Career Opportunities for Civil (Smart Infrastructure & Construction Engineering)

Construction Project Engineer

Design Engineer

Consultant (Structure, Hydraulics, Environmental Engg.)

Estate and real estate and Project Management

Infrastructure Planner and Development Engineer

land Record and Public service Engineer

Civil Engineering Consultant

Quality control and assurance engineer

Metro and Infrastructure Engineer

Charted Engineer

www.mitwpu.edu.inSMART INFRASTRUCTURE & CONSTRUCTION ENGINEERING

Safety auditor

Property Valuer and Estimation consultant

Property Rehabilitation, strengthening development

Heritage and High value construction

GIS mapper

Civil and city Surveyor

Universities and several other sectors…

Automation in Civil

Construction

CIVIL

The program provide a range of technologies that can be applied to solve infrastructure problems associated with ageing infrastructure and increasing demands. The potential for infrastructure and urban improvement remains unrealized, however, due to technical, financial, and social constraints and criticisms that limit the implementation of smart cities concepts for infrastructure management. The smart technologies including sensors, crowdsourcing and citizen science, actuators, data transmission, Internet of Things, big data analytics, data visualization, and blockchain, which can be used for infrastructure management. Gaps in the application of smart technologies for infrastructure systems are identified, and we highlight how the civil engineering profession can adopt new roles toward the deve lopment of smart in f rast ructure and construction management applications. These roles are:

4) Manager of Risk: Civil engineers should manage existing and growing risks of natural disasters, emergencies, and climate change; they should also manage new vulnerabilities in the privacy and security of individuals and households that are introduced through smart technologies; and

5) Leader and Decision Maker: Civil engineers can take a lead in smart infrastructure discussions and policy development.

1) Master Designer: Civil engineers can identify ready applications of enabling technologies to improve the delivery of urban resources and services;

2) Steward: Civil engineers must account for both the environmental and societal impacts of smart infrastructure applications;

3) Innovator and integrator: Civil engineers should integrate across diverse sectors and groups of experts to develop smart infrastructure programs;

The one of the oldest departments at MIT-WPU Established as Department of Civil Engineering in the year 1983. Over the years the department has nurtured young minds to produce bright and competent civil engineers. The department has faculty expertise in almost the entire spectrum of civil engineering and in addition, the course curriculum includes the smart technologies including sensors, crowdsourcing and citizen science, actuators, data transmission, Internet of Things, big data analytics, data visualization, and blockchain, which can be used for smart infrastructure and construct ion management, etc. and Peace courses taught by experienced and eminent faculties. MIT-WPU consistently tops in the ranking of engineering colleges and is widely recognized in India and abroad for its excellence in education. The salient features include fully equipped laboratories- Heavy structural and structural dynamic laboratories and also Skill-Based Certifications like Oracle’s Primavera, Microsoft Project, Bentley’s STADD PRO, ETAB, Autodesk’s AutoCAD, BIM Architecture, Autodesk Revit, Enterprise Resource Planning (ERP) are included in the academics. The school has the academic collaborations with Indian green building council (IGBC), ISSE student chapter pune and Constro.

Why Civil (Smart Infrastructure & Construction Engineering) ?

About the Program:

Majors (Tracks)

Intelligent Transport System

Sustainable Construction Materials &

Management

Intelligent Irrigation

Technologies

360 Degree Career Opportunities for Civil (Smart Infrastructure & Construction Engineering)

Construction Project Engineer

Design Engineer

Consultant (Structure, Hydraulics, Environmental Engg.)

Estate and real estate and Project Management

Infrastructure Planner and Development Engineer

land Record and Public service Engineer

Civil Engineering Consultant

Quality control and assurance engineer

Metro and Infrastructure Engineer

Charted Engineer

www.mitwpu.edu.inSMART INFRASTRUCTURE & CONSTRUCTION ENGINEERING

Safety auditor

Property Valuer and Estimation consultant

Property Rehabilitation, strengthening development

Heritage and High value construction

GIS mapper

Civil and city Surveyor

Universities and several other sectors…

Automation in Civil

Construction

CHEMICAL

Chemica l eng ineer ing dea ls w i th des ign , development and operation of industrial processes in which raw materials are converted into useful products. The scope of Chemical engineering touches every aspect of the life from upstream p e t r o l e u m , p e t r o c h e m i c a l s , p o l y m e r s , microelectronics, biomedical devices, paper, dyes, textiles, materials, ceramics, drugs, fertilizers and foods.

Chemical Engineering has catered to the Industry 4.0 scenario in Data Analytics for Predictive Process Solutions, Smart Manufacturing Technologies, Process Automation and Control, Process Modeling Simulation and Optimization.

With the legacy of four decades behind it, the MIT-WPU School of Chemical Engineering is one of the foremost centers of chemical engineering within India. Founded to meet the rising demand for Chemical Engineers in the country, it has produced a competent and talented workforce for over forty years. The state of the art laboratories along with a highly qualified academic staff ensure that the MIT-WPU School of Engineering excels at research, something the burgeoning Chemical Industry sorely needs.

There are presently more than seven titles being currently researched at the School with grants from various National funding agencies. Our updated syllabus and numerous industry and alumni interactions ensure that we remain abreast with the latest developments within the field of Chemical Engineering and that ensures the quality of our graduates. With an emphasis of the overall development of our students coupled with an excellent infrastructure and faculty, we will continue to produce the finest Chemical Engineers and engage in innovative research for the near future. The School of Chemical Engineering at MIT WPU offers a perfect blend of experimental research and industrial training and experiential projects based on Process Automation, Modeling and Simulation.

Why Chemical Engineering? About the Program:

Rendering Services

to Society

th5 Batch

Majors (Tracks)

Water and Wastewater Treatment

Polymer Technology

Biochemical Engineering

Chemical Process Modeling and

Simulation

360 Degree Career Opportunities for a Chemical Engineer

Manufacturing

Pharmaceuticals

Healthcare

Design and Construction

Pulp and Paper

Oil and Gas

Petrochemicals

Food Processing

Specialty Chemicals

Microelectronics

Polymers and Advanced Materials

Biotechnology

Environment, Health and Safety

Engineering Consultancy

Finance and Marketing Consultancy

Data Science, AI, ML

Refining and Petrochemical

Technology

www.mitwpu.edu.in

CHEMICAL

Chemica l eng ineer ing dea ls w i th des ign , development and operation of industrial processes in which raw materials are converted into useful products. The scope of Chemical engineering touches every aspect of the life from upstream p e t r o l e u m , p e t r o c h e m i c a l s , p o l y m e r s , microelectronics, biomedical devices, paper, dyes, textiles, materials, ceramics, drugs, fertilizers and foods.

Chemical Engineering has catered to the Industry 4.0 scenario in Data Analytics for Predictive Process Solutions, Smart Manufacturing Technologies, Process Automation and Control, Process Modeling Simulation and Optimization.

With the legacy of four decades behind it, the MIT-WPU School of Chemical Engineering is one of the foremost centers of chemical engineering within India. Founded to meet the rising demand for Chemical Engineers in the country, it has produced a competent and talented workforce for over forty years. The state of the art laboratories along with a highly qualified academic staff ensure that the MIT-WPU School of Engineering excels at research, something the burgeoning Chemical Industry sorely needs.

There are presently more than seven titles being currently researched at the School with grants from various National funding agencies. Our updated syllabus and numerous industry and alumni interactions ensure that we remain abreast with the latest developments within the field of Chemical Engineering and that ensures the quality of our graduates. With an emphasis of the overall development of our students coupled with an excellent infrastructure and faculty, we will continue to produce the finest Chemical Engineers and engage in innovative research for the near future. The School of Chemical Engineering at MIT WPU offers a perfect blend of experimental research and industrial training and experiential projects based on Process Automation, Modeling and Simulation.

Why Chemical Engineering? About the Program:

Rendering Services

to Society

th5 Batch

Majors (Tracks)

Water and Wastewater Treatment

Polymer Technology

Biochemical Engineering

Chemical Process Modeling and

Simulation

360 Degree Career Opportunities for a Chemical Engineer

Manufacturing

Pharmaceuticals

Healthcare

Design and Construction

Pulp and Paper

Oil and Gas

Petrochemicals

Food Processing

Specialty Chemicals

Microelectronics

Polymers and Advanced Materials

Biotechnology

Environment, Health and Safety

Engineering Consultancy

Finance and Marketing Consultancy

Data Science, AI, ML

Refining and Petrochemical

Technology

www.mitwpu.edu.in

BIO ENGINEEERING

Bioengineering is a multidisciplinary program which integrates principles of biological, physical, chemical, mathematics and life sciences along with different aspects of chemical, mechanical, electrical and computer engineering. It inherits knowledge from molecular to organ system levels, develops biomaterials and devices, involving information and technology management, as well as methods for assessment and evaluation of technology, for biological applications.

Bioengineers play an important role in design of medical devices such as artificial internal organs, imaging machines, cardiac pacemakers, and implants etc. which helps people to combat disease and

disabi l i ty. B ioengineers develop biologically compatible materials

and b ioprosthet ic dev ices , controllers of heart function, artificial retinas, and advanced hearing systems.

With the legacy of four decades behind it, the MITWPU School of Chemical Engineering is one of the foremost centers of Chemical Engineering in India. Founded to meet the rising demand for Chemical Engineers in the country, it has been producing a competent and talented workforce for over forty years. The state of the art laboratories along with a highly qualified and expert academic staff ensure that the MITWPU School of Chemical Engineering excels at research, something the burgeoning Chemical Industry sorely needs. There are presently more than seven titles being currently researched at the School with grants from various National funding agencies. Our updated syllabus and numerous industry and alumni interactions ensure that we remain abreast with the latest developments within the field of Chemical Engineering and that ensures the quality of our graduates. With an emphasis of the overall development of our students coupled with excellent infrastructure and faculty, we will continue to produce the finest bioengineers and engage in innovative research for the near future. The School of Chemical Engineering at MIT WPU offers a perfect blend of experimental research and industrial training and experiential projects based on Process Automation, Modeling and Simulation.

Dr. Vishwanath Karad MIT World Peace University offers B. Tech in Bioengineering degree course of 4 years. Bioengineers help to improve the quality life of living systems by utilizing design and development of machines, instruments, processes, and technologies.

Why Bio Engineering? About the Program:

Majors (Tracks)

Biomechanics Biomedical Instrumentation

Bioprocess Engineering

360 Degree Career Opportunities for a Bio Engineering

Bioinformatics

www.mitwpu.edu.in

Biomechatronics

Bio instrumentation

Medical Imaging

Systems Physiology

Neural Engineering

Bioinformatics

Biomaterials

Cellular & Tissue Engineering

Genetic Engineering

Bioenergy

Biomechanics

Biofluid

Bionics

Rehabilitation Engineering

Biomedical Electronics

BIO ENGINEEERING

Bioengineering is a multidisciplinary program which integrates principles of biological, physical, chemical, mathematics and life sciences along with different aspects of chemical, mechanical, electrical and computer engineering. It inherits knowledge from molecular to organ system levels, develops biomaterials and devices, involving information and technology management, as well as methods for assessment and evaluation of technology, for biological applications.

Bioengineers play an important role in design of medical devices such as artificial internal organs, imaging machines, cardiac pacemakers, and implants etc. which helps people to combat disease and

disabi l i ty. B ioengineers develop biologically compatible materials

and b ioprosthet ic dev ices , controllers of heart function, artificial retinas, and advanced hearing systems.

With the legacy of four decades behind it, the MITWPU School of Chemical Engineering is one of the foremost centers of Chemical Engineering in India. Founded to meet the rising demand for Chemical Engineers in the country, it has been producing a competent and talented workforce for over forty years. The state of the art laboratories along with a highly qualified and expert academic staff ensure that the MITWPU School of Chemical Engineering excels at research, something the burgeoning Chemical Industry sorely needs. There are presently more than seven titles being currently researched at the School with grants from various National funding agencies. Our updated syllabus and numerous industry and alumni interactions ensure that we remain abreast with the latest developments within the field of Chemical Engineering and that ensures the quality of our graduates. With an emphasis of the overall development of our students coupled with excellent infrastructure and faculty, we will continue to produce the finest bioengineers and engage in innovative research for the near future. The School of Chemical Engineering at MIT WPU offers a perfect blend of experimental research and industrial training and experiential projects based on Process Automation, Modeling and Simulation.

Dr. Vishwanath Karad MIT World Peace University offers B. Tech in Bioengineering degree course of 4 years. Bioengineers help to improve the quality life of living systems by utilizing design and development of machines, instruments, processes, and technologies.

Why Bio Engineering? About the Program:

Majors (Tracks)

Biomechanics Biomedical Instrumentation

Bioprocess Engineering

360 Degree Career Opportunities for a Bio Engineering

Bioinformatics

www.mitwpu.edu.in

Biomechatronics

Bio instrumentation

Medical Imaging

Systems Physiology

Neural Engineering

Bioinformatics

Biomaterials

Cellular & Tissue Engineering

Genetic Engineering

Bioenergy

Biomechanics

Biofluid

Bionics

Rehabilitation Engineering

Biomedical Electronics

PETROLEUM

Interdisciplinary engineering branch focusing on exploration, drilling, production and management of subsurface oil and gas resources.

Petroleum engineers discover, design, drill, produce, and sustain the World’s oil and gas reserves. It is a branch of engineering that deals with the exploration and production (E&P) of hydrocarbons, i.e. Crude oil or natural gas. This branch is also known as the upstream sector of the oil and gas industry which is considered as a truly interdisciplinary branch of engineering.

Dr. Vishwanath Karad MIT World Peace University offers B.Tech in Petroleum Engineering degree course of 4 years . I t der ives inputs from mathematical, physical and geosciences as well as different branches of engineering to maximize the oil/ gas recovery from subsurface reservoirs at a commercial price. The course involves understanding of geosciences, drilling, production and reservoir engineering with value addition of economic aspects of petroleum field development. At MIT-WPU, our aim is to develop a research active graduate student to own up the challenges in the various disciplines of petroleum engineering to manage these resources.

Why Petroleum Engineering? About the Program:

Learn how to fuel the world

th35 Batch

360 Degree Career Opportunities for a Petroleum Engineer

“The School of Petroleum Engineering has been instrumental in a state-of-the-art subsea engineering laboratory development project at MIT Pune. This facility is a corporate social responsibility project by Aker Solutions. This joint initiative of Aker Solutions and MIT, Pune has been named the Dr. Vishwanath Karad Centre for Subsea Engineering Research. The laboratory is under commissioning and will be handed over during the next academic year.”

Drilling Engineer Oil Well Cementing Engineer

Production Engineer Well Completion Engineer

Petroleum Economist Reservoir Engineer

Public Sector Companies Crude oil supply chain

Piping Engineering Well Intervention

Flow Assurance Well Completion and Workover Engineer

Data Analyst Oil Field Instrumentation Engineer

Research Organizations Oil and Gas Marketing

Domain Expert in IT Companies

Majors (Tracks) :

Production Engineering

Exploration & Economics

Reservoir Engineering

Environmental Engineering

Drilling Engineering

Data Analytics

Refining & Transport

Supply Chain Management

www.mitwpu.edu.in

PETROLEUM

Interdisciplinary engineering branch focusing on exploration, drilling, production and management of subsurface oil and gas resources.

Petroleum engineers discover, design, drill, produce, and sustain the World’s oil and gas reserves. It is a branch of engineering that deals with the exploration and production (E&P) of hydrocarbons, i.e. Crude oil or natural gas. This branch is also known as the upstream sector of the oil and gas industry which is considered as a truly interdisciplinary branch of engineering.

Dr. Vishwanath Karad MIT World Peace University offers B.Tech in Petroleum Engineering degree course of 4 years . I t der ives inputs from mathematical, physical and geosciences as well as different branches of engineering to maximize the oil/ gas recovery from subsurface reservoirs at a commercial price. The course involves understanding of geosciences, drilling, production and reservoir engineering with value addition of economic aspects of petroleum field development. At MIT-WPU, our aim is to develop a research active graduate student to own up the challenges in the various disciplines of petroleum engineering to manage these resources.

Why Petroleum Engineering? About the Program:

Learn how to fuel the world

th35 Batch

360 Degree Career Opportunities for a Petroleum Engineer

“The School of Petroleum Engineering has been instrumental in a state-of-the-art subsea engineering laboratory development project at MIT Pune. This facility is a corporate social responsibility project by Aker Solutions. This joint initiative of Aker Solutions and MIT, Pune has been named the Dr. Vishwanath Karad Centre for Subsea Engineering Research. The laboratory is under commissioning and will be handed over during the next academic year.”

Drilling Engineer Oil Well Cementing Engineer

Production Engineer Well Completion Engineer

Petroleum Economist Reservoir Engineer

Public Sector Companies Crude oil supply chain

Piping Engineering Well Intervention

Flow Assurance Well Completion and Workover Engineer

Data Analyst Oil Field Instrumentation Engineer

Research Organizations Oil and Gas Marketing

Domain Expert in IT Companies

Majors (Tracks) :

Production Engineering

Exploration & Economics

Reservoir Engineering

Environmental Engineering

Drilling Engineering

Data Analytics

Refining & Transport

Supply Chain Management

www.mitwpu.edu.in

The omnipresence of digitalisation in all aspects of life has contributed to a major surge in Computer Science & Engineering. The unprecedented demand for innovation, design, development, deployment, usability and presentation are an inherent trait of this field. Needless to say, the role of computers is thriving exponentially and has gradually become an irreplaceable part of our lives globally. This justifies the enormous need for more efficient and competent Computer Engineers worldwide. Computer Science Engineering programme is a perfect blend of academics , indust r ia l exposure , research opportunities, plethora of co-curricular and extracurricular activities thereby honing the all-inclusive personality and competence of the budding engineer.

Why Computer Science & Engineering?

Driving the future world through the power of computing

The School of Computer Engineer ing and Technology is the most sought after school in the Faculty of Engineering and Technology, and also one of the largest schools at MIT-WPU. The program was established in 1987 and meticulously prepares hundreds of graduate and undergraduate students for a bright career in the field of technology and research. The course curriculum includes cutting-edge technologies like Artificial Intelligence, Machine Learning, Data Analytics, Cloud Computing, High Performance Computing, Internet of Things, Network and Cyber Security and Forensics, Computer Forensics etc. taught by experienced and eminent faculties. Peace courses- Yoga, Sports, Ethos, Ethics and Liberal Arts & Life Skills promote value based education. Thus the program is a perfect amalgamation of technological advancements in Computer Science and Engineering, Basic Sciences and Humanities.

The School is fully equipped with more than 27 modern laboratories. Some of the prominent ones are Cloud Computing Laboratory, Web Technology Laboratory, IoT Laboratory and laboratories pertaining to individual specialization subjects. The School is proudly associated with the Center of Excellence established by MNCs like IBM, AMDOCS, NVIDIA and IEEE Pune section (Affordable Agriculture Technology Laboratory). The School has excellent relations and MoUs with its academic and research partners like NVIDIA, Sigma, Mobiliya, izealiant technologies, C-DAC and Carenx to name a few. Curr iculum of Computer Science and Engineering is imparted with various active learning methods like Project Based Learning (PBL), Experiential Learning, Choice Based Course Selection, Capstone Projects, Professional Electives and Open Electives. The curriculum focuses more on hands-on sessions and mini projects. Students participate in various National/International technical forums and competitions like Robocon, Hackathon, TechnoVision etc and have subsequently won accolades for the same.

The third year students get exposure to corporate environments through industry internships and national tours that promote their professional and ethical growth. The final year B.Tech students pursue a Capstone Project to learn and implement the latest technical and research trends of industry and R&D.

About the Program:

COMPUTER SCIENCE & ENGINEERING th34 Batch

360 Degree Career Opportunities for a Computer Science Engineer

Majors (Tracks)

Data Science

Multimedia& ComputerVision

Information and Cyber Security

Software Design and Development

The School of Computer Engineer ing and Technology has received grants from AICTE, IEEE and IBM for setting up a laboratory and research projects. The School provides a platform for internships to the students of third year. A total of 190+ companies visited the campus for paid internships with the highest package offered of INR 50,000/- by NVIDIA. The incubator facility at the School nurtures bright minds to develop their ideas into start-ups. The School of Computer Engineering and Technology has always encouraged students to participate in “Hackathon” to showcase their skills and talent. The students have proved their mettle with prize winning performance in these worldwide competitions by winning several of the “Hackathon” competitions like ASEAN-INDIA Hackathon 2021, Google Build For Digital India 2020, Smart India Hackathon 2020, and Novate+ 2020 Hackathon to name a few.

Ÿ The School has received funding worth INR 10 lakhs from IBM for the research project titled "Detection of Pre-dementia" an interactive system that performs various cognitive functional tests to assess a person's cognitive functions (memory, attention span, speed, language, visio-spatial, executive function etc.)

Ÿ Also, the School has received a grant under IEEE Affordable Agriculture Lab for the project titled “Autonomous bot for future farming” an agricultural robot capable of fertilizing crops with minimal human intervention and reduced effort.

After graduating with a degree in Computer Science & Engineering, there are a plethora of Computer Engineering job profiles in various sectors. Some of them are as follows:

IT Sector

Ÿ Software ArchitectŸ Software tester

Ÿ Software Engineer

Digital ConsultingŸ BlockChain

Developer/EngineerŸ Web DeveloperŸ Network Security Engineer

Software EngineerŸ Database AdministratorŸ Data ScientistŸ Data Analyst

Ÿ Computer ProgrammerŸ Computer Support Specialist

Banking & Finance Sector

Ÿ Graphics Engineer

Advertising & Mass CommunicationŸ Computer Hardware

Engineer

Retail & Supply Chain Management

Ÿ Full Stack DeveloperŸ Big Data EngineerŸ Web Developer

Public SectorsŸ Computer ProgrammerŸ Information Security AnalystŸ Computer System Analyst

Ÿ Information Security Analyst

Government & Armed Forces

Ÿ Cyber SecurityŸ Computer Support Specialist

Ÿ Universities, Research Labs and several other sectors…

Other SectorsŸ HealthcareŸ Space and Satellite

www.mitwpu.edu.in

The omnipresence of digitalisation in all aspects of life has contributed to a major surge in Computer Science & Engineering. The unprecedented demand for innovation, design, development, deployment, usability and presentation are an inherent trait of this field. Needless to say, the role of computers is thriving exponentially and has gradually become an irreplaceable part of our lives globally. This justifies the enormous need for more efficient and competent Computer Engineers worldwide. Computer Science Engineering programme is a perfect blend of academics , indust r ia l exposure , research opportunities, plethora of co-curricular and extracurricular activities thereby honing the all-inclusive personality and competence of the budding engineer.

Why Computer Science & Engineering?

Driving the future world through the power of computing

The School of Computer Engineer ing and Technology is the most sought after school in the Faculty of Engineering and Technology, and also one of the largest schools at MIT-WPU. The program was established in 1987 and meticulously prepares hundreds of graduate and undergraduate students for a bright career in the field of technology and research. The course curriculum includes cutting-edge technologies like Artificial Intelligence, Machine Learning, Data Analytics, Cloud Computing, High Performance Computing, Internet of Things, Network and Cyber Security and Forensics, Computer Forensics etc. taught by experienced and eminent faculties. Peace courses- Yoga, Sports, Ethos, Ethics and Liberal Arts & Life Skills promote value based education. Thus the program is a perfect amalgamation of technological advancements in Computer Science and Engineering, Basic Sciences and Humanities.

The School is fully equipped with more than 27 modern laboratories. Some of the prominent ones are Cloud Computing Laboratory, Web Technology Laboratory, IoT Laboratory and laboratories pertaining to individual specialization subjects. The School is proudly associated with the Center of Excellence established by MNCs like IBM, AMDOCS, NVIDIA and IEEE Pune section (Affordable Agriculture Technology Laboratory). The School has excellent relations and MoUs with its academic and research partners like NVIDIA, Sigma, Mobiliya, izealiant technologies, C-DAC and Carenx to name a few. Curr iculum of Computer Science and Engineering is imparted with various active learning methods like Project Based Learning (PBL), Experiential Learning, Choice Based Course Selection, Capstone Projects, Professional Electives and Open Electives. The curriculum focuses more on hands-on sessions and mini projects. Students participate in various National/International technical forums and competitions like Robocon, Hackathon, TechnoVision etc and have subsequently won accolades for the same.

The third year students get exposure to corporate environments through industry internships and national tours that promote their professional and ethical growth. The final year B.Tech students pursue a Capstone Project to learn and implement the latest technical and research trends of industry and R&D.

About the Program:

COMPUTER SCIENCE & ENGINEERING th34 Batch

360 Degree Career Opportunities for a Computer Science Engineer

Majors (Tracks)

Data Science

Multimedia& ComputerVision

Information and Cyber Security

Software Design and Development

The School of Computer Engineer ing and Technology has received grants from AICTE, IEEE and IBM for setting up a laboratory and research projects. The School provides a platform for internships to the students of third year. A total of 190+ companies visited the campus for paid internships with the highest package offered of INR 50,000/- by NVIDIA. The incubator facility at the School nurtures bright minds to develop their ideas into start-ups. The School of Computer Engineering and Technology has always encouraged students to participate in “Hackathon” to showcase their skills and talent. The students have proved their mettle with prize winning performance in these worldwide competitions by winning several of the “Hackathon” competitions like ASEAN-INDIA Hackathon 2021, Google Build For Digital India 2020, Smart India Hackathon 2020, and Novate+ 2020 Hackathon to name a few.

Ÿ The School has received funding worth INR 10 lakhs from IBM for the research project titled "Detection of Pre-dementia" an interactive system that performs various cognitive functional tests to assess a person's cognitive functions (memory, attention span, speed, language, visio-spatial, executive function etc.)

Ÿ Also, the School has received a grant under IEEE Affordable Agriculture Lab for the project titled “Autonomous bot for future farming” an agricultural robot capable of fertilizing crops with minimal human intervention and reduced effort.

After graduating with a degree in Computer Science & Engineering, there are a plethora of Computer Engineering job profiles in various sectors. Some of them are as follows:

IT Sector

Ÿ Software ArchitectŸ Software tester

Ÿ Software Engineer

Digital ConsultingŸ BlockChain

Developer/EngineerŸ Web DeveloperŸ Network Security Engineer

Software EngineerŸ Database AdministratorŸ Data ScientistŸ Data Analyst

Ÿ Computer ProgrammerŸ Computer Support Specialist

Banking & Finance Sector

Ÿ Graphics Engineer

Advertising & Mass CommunicationŸ Computer Hardware

Engineer

Retail & Supply Chain Management

Ÿ Full Stack DeveloperŸ Big Data EngineerŸ Web Developer

Public SectorsŸ Computer ProgrammerŸ Information Security AnalystŸ Computer System Analyst

Ÿ Information Security Analyst

Government & Armed Forces

Ÿ Cyber SecurityŸ Computer Support Specialist

Ÿ Universities, Research Labs and several other sectors…

Other SectorsŸ HealthcareŸ Space and Satellite

www.mitwpu.edu.in

To promote growth of industry ready computer engineers and address the imminent need of digital and Industry 4.0 relevant skillsets among the graduating students.

• Understanding of Contemporary Technology

The course focuses on enhancing the following key attributes among graduating students:

• Understanding of Technology Abstraction

• Business Discipline and Service Orientation

• Knowledge of Common Business Principles

• Innovation Ability

• Strong in Ethics and Life Values

This curriculum aims to ensure that the students graduating from the program not only know the core topics of Computer Science but also develop an equal appreciation of humanities, management sciences and human values. The students are also exposed to emerging topics such as Analytics, Machine Learning, Cloud Computing, Internet of Things etc. to make them industry ready at the end of four years of study.

Why Computer Science & Business Systems?

To address the growing need of engineering talent with skills in digital technology, TCS, in partnership with MIT World Peace University, has designed a curriculum for 4 years undergraduate program on Computer Science titled “Computer Science and Business Systems” (CSBS) which will run under School of Computer Engineering and Technology

About the Program:

COMPUTER SCIENCE & ENGINEERING

360 Degree Career Opportunities for CSBS Engineer

www.mitwpu.edu.inComputer Science & Business Systems

Ÿ TCS will do periodic progress assessment of the students for some papers.

Ÿ TCS will conduct training sessions for the faculty members about the conduction of all courses before the commencement of each trimester. The sess ions wi l l be conducted by lead ing academicians and TCS senior executives

Ÿ Expert lectures will be conducted by TCS senior executives for some subjects

Ÿ The course curriculum is designed by TCS

Ÿ TCS may offer internship for selected students based on the performance of assessment test

Salient Features:

Majors (Tracks)

Computer Science (CS)

Digital Technology and Systems (DTS)

Innovation, IP & Entrepreneurship (IE)

Data Science (DS)

Management Science (MS)

Sciences & Humanities (SH)

Software Engineer

Database Administrator

Computer Hardware Engineer Computer Network Architect

Computer System Analyst

Renewables Energy Systems

Power Sector: Generation, Transmission & Distribution

Wireless Area Networks

Information Security Analyst

Network Security

Space and Satellite

Universities and several other sectors…

Web Developer

Blockchain Developer/Engineer

Full Stack Developer

Information Systems Manager

Public Sector Companies

Defense Sector

Software Architect

Data Scientist

Data Analyst

Big Data Engineer

Machine Learning Engineer

Robotics and Automation

Research Organizations

To promote growth of industry ready computer engineers and address the imminent need of digital and Industry 4.0 relevant skillsets among the graduating students.

• Understanding of Contemporary Technology

The course focuses on enhancing the following key attributes among graduating students:

• Understanding of Technology Abstraction

• Business Discipline and Service Orientation

• Knowledge of Common Business Principles

• Innovation Ability

• Strong in Ethics and Life Values

This curriculum aims to ensure that the students graduating from the program not only know the core topics of Computer Science but also develop an equal appreciation of humanities, management sciences and human values. The students are also exposed to emerging topics such as Analytics, Machine Learning, Cloud Computing, Internet of Things etc. to make them industry ready at the end of four years of study.

Why Computer Science & Business Systems?

To address the growing need of engineering talent with skills in digital technology, TCS, in partnership with MIT World Peace University, has designed a curriculum for 4 years undergraduate program on Computer Science titled “Computer Science and Business Systems” (CSBS) which will run under School of Computer Engineering and Technology

About the Program:

COMPUTER SCIENCE & ENGINEERING

360 Degree Career Opportunities for CSBS Engineer

www.mitwpu.edu.inComputer Science & Business Systems

Ÿ TCS will do periodic progress assessment of the students for some papers.

Ÿ TCS will conduct training sessions for the faculty members about the conduction of all courses before the commencement of each trimester. The sess ions wi l l be conducted by lead ing academicians and TCS senior executives

Ÿ Expert lectures will be conducted by TCS senior executives for some subjects

Ÿ The course curriculum is designed by TCS

Ÿ TCS may offer internship for selected students based on the performance of assessment test

Salient Features:

Majors (Tracks)

Computer Science (CS)

Digital Technology and Systems (DTS)

Innovation, IP & Entrepreneurship (IE)

Data Science (DS)

Management Science (MS)

Sciences & Humanities (SH)

Software Engineer

Database Administrator

Computer Hardware Engineer Computer Network Architect

Computer System Analyst

Renewables Energy Systems

Power Sector: Generation, Transmission & Distribution

Wireless Area Networks

Information Security Analyst

Network Security

Space and Satellite

Universities and several other sectors…

Web Developer

Blockchain Developer/Engineer

Full Stack Developer

Information Systems Manager

Public Sector Companies

Defense Sector

Software Architect

Data Scientist

Data Analyst

Big Data Engineer

Machine Learning Engineer

Robotics and Automation

Research Organizations

Cybersecurity has a massively crucial role across multitudes of sectors including industry, science and technology, enterprises, healthcare, e-commerce, education, research organizations, governmental organizations because it protects all categories of data from theft and damage.

With the pandemic, there has been a significant surge in Broadband and Information Technology fuelling businesses/organizations of different magnitude to reach escalat ing heights of efficiency and productivity. Cybersecurity has become priceless to such vendors as protecting their business, customer data, and other sensitive data from the alarming increase in cybersecurity attacks globally. Remote work, dependence on digital devices has contributed to the multifold increase in numerous forms of cybersecurity complaints and a whopping loss in trillions globally.

Cybersecurity is the strongest asset of any Organization due to its pivotal role in defending against a myriad of threats including - Social engineering attacks, Ransomware, DDoS attacks, vulnerabilities in Cloud computing and third party software as also in protecting variety of data including - sensitive data, personally identifiable information, protected health information, intellectual property data, personal information, industry information systems.

Hence there is an ever increasing demand in the industry for skilled Computer Engineers competent to deal with real world problems surfacing in one or more of the domains of Cybersecurity including – physical, information, cognitive and social. This specialized course intends to imbibe the core knowledge of Cybersecurity and equip the students to become industry-ready for their dream job with a strong passion to contribute in the global pursuit of protecting against cyber-attacks.

At MITWPU, our objective is to empower students for the upcoming challenges in Cybersecurity which has opened up rewarding avenues of career and research opportunities. The School of Computer Engineering and Technology will provide the students with focused guidance, abundance of opportunities and lifelong learning ability to embark upon their future career.

Why Cyber Security & Forensics?

Our experienced and eminent faculties shall teach advanced technologies, emerging tools, latest trends and developments and Peace courses as a part of this program. The School is fully equipped with modern tools and laboratories. Some of the prominent laboratories are Cyber Security Laboratory, Computer Networks Laboratory, and Wireless Networks to name a few. The School is proudly associated with the Center of Excellence established by MNCs like IBM, AMDOCS, NVIDIA and IEEE Pune section (Affordable Agriculture Technology Laboratory). The School has excellent relations and MoUs with its academic and research partners like NVIDIA, Sigma, Mobiliya, izealiant technologies, C-DAC and Carenx to name a few. Computer Science and Engineering curriculum is imparted with various active learning methods like Project Based Learning (PBL), Experiential Learning, Choice Based Course Selection, Capstone Projects and Electives. The curriculum strongly focuses on hands-on sessions and mini-projects. Students can aspire to participate in various National/International technical forums and competitions like Robocon, Hackathon, TechnoVision. Students will get exposure to the corporate environments through industry internships and national tours that promote their professional and ethical growth. The final year B.Tech students shall pursue a Capstone Project to learn and implement latest technical and research offerings of industry and R&D.

The School of Computer Engineer ing and Technology is the most sought after school in the Faculty of Engineering and Technology. One of the new courses offered at the School is a specialization in Cyber Security & Forensics. The domain of Cybersecurity is targeted at solving problems in multiple interdisciplinary realms owing to the cutting edge technologies such as Cyber Security, Forensics, and Crypto Analysis. This course spans four years and shall groom students for various career options such as Cyber Security Analyst, Network Security Analyst, and Information Security Crime Investigator etc. This variety of opportunities shall enable the budding engineer in tackling real world challenges in the field of Cybersecurity, Law Enforcement and others.

About the Program:

COMPUTER SCIENCE & ENGINEERING www.mitwpu.edu.inCyber Security & Forensics

360 Degree Career Opportunities for Cyber Security & Forensics Engineer

Ÿ Security Auditor

Ÿ IT Cybersecurity EngineerŸ Network Security Analyst

Ÿ Security Software DeveloperŸ Security AdministratorŸ Security Manager

Ÿ Penetration Tester

Ÿ Vulnerability Assessor

Software & IT Firms

Ÿ Network Security EngineerŸ Ethical Hacker

Ÿ Cryptologist

Ÿ Cryptographer

Ÿ Crypto analystDigital Consulting

Software EngineerŸ Database AdministratorŸ Product AnalystŸ System Analyst

Robotics & AutomationŸ Cyber/IT Security SpecialistŸ Security ConsultantŸ Lead Software Security

Engineer

Advertising & Mass Communication

Ÿ Computer Support Specialist

Ÿ Computer Hardware Engineer

Ÿ Machine Learning Engineer

Ÿ Machine Learning Engineer

Ÿ Artificial Intelligence Engineer

Data Science Based

Ÿ Cyber Operations Analyst

Analytics Based CompaniesŸ Cyber Security Analyst

Ÿ Computer Support SpecialistŸ Chief Information Security

Officer (CISO)

Ÿ Information Security Crime Investigator

Ÿ Intrusion Detection Specialist

Government & Armed Forces

Ÿ Information Security Analyst

Ÿ Incident Responder

Ÿ Forensic Expert

Ÿ Space and Satellite

Power Sector: Generation, Transmission & Distribution

Ÿ Universities and several other sectors…

Ÿ Blockchain and Crypto currency Technologies Ÿ Secure Software Design & Enterprise Computing

Facets of Professional Electives under Cyber Security & Forensics:

Ÿ Artificial IntelligenceŸ Malware Analysis and Reverse Engineering

Ÿ Big Data Analysis and Visualization Ÿ Security of E-Based Systems Ÿ Artificial Intelligence

Ÿ Malware Analysis and Reverse Engineering

Cybersecurity has a massively crucial role across multitudes of sectors including industry, science and technology, enterprises, healthcare, e-commerce, education, research organizations, governmental organizations because it protects all categories of data from theft and damage.

With the pandemic, there has been a significant surge in Broadband and Information Technology fuelling businesses/organizations of different magnitude to reach escalat ing heights of efficiency and productivity. Cybersecurity has become priceless to such vendors as protecting their business, customer data, and other sensitive data from the alarming increase in cybersecurity attacks globally. Remote work, dependence on digital devices has contributed to the multifold increase in numerous forms of cybersecurity complaints and a whopping loss in trillions globally.

Cybersecurity is the strongest asset of any Organization due to its pivotal role in defending against a myriad of threats including - Social engineering attacks, Ransomware, DDoS attacks, vulnerabilities in Cloud computing and third party software as also in protecting variety of data including - sensitive data, personally identifiable information, protected health information, intellectual property data, personal information, industry information systems.

Hence there is an ever increasing demand in the industry for skilled Computer Engineers competent to deal with real world problems surfacing in one or more of the domains of Cybersecurity including – physical, information, cognitive and social. This specialized course intends to imbibe the core knowledge of Cybersecurity and equip the students to become industry-ready for their dream job with a strong passion to contribute in the global pursuit of protecting against cyber-attacks.

At MITWPU, our objective is to empower students for the upcoming challenges in Cybersecurity which has opened up rewarding avenues of career and research opportunities. The School of Computer Engineering and Technology will provide the students with focused guidance, abundance of opportunities and lifelong learning ability to embark upon their future career.

Why Cyber Security & Forensics?

Our experienced and eminent faculties shall teach advanced technologies, emerging tools, latest trends and developments and Peace courses as a part of this program. The School is fully equipped with modern tools and laboratories. Some of the prominent laboratories are Cyber Security Laboratory, Computer Networks Laboratory, and Wireless Networks to name a few. The School is proudly associated with the Center of Excellence established by MNCs like IBM, AMDOCS, NVIDIA and IEEE Pune section (Affordable Agriculture Technology Laboratory). The School has excellent relations and MoUs with its academic and research partners like NVIDIA, Sigma, Mobiliya, izealiant technologies, C-DAC and Carenx to name a few. Computer Science and Engineering curriculum is imparted with various active learning methods like Project Based Learning (PBL), Experiential Learning, Choice Based Course Selection, Capstone Projects and Electives. The curriculum strongly focuses on hands-on sessions and mini-projects. Students can aspire to participate in various National/International technical forums and competitions like Robocon, Hackathon, TechnoVision. Students will get exposure to the corporate environments through industry internships and national tours that promote their professional and ethical growth. The final year B.Tech students shall pursue a Capstone Project to learn and implement latest technical and research offerings of industry and R&D.

The School of Computer Engineer ing and Technology is the most sought after school in the Faculty of Engineering and Technology. One of the new courses offered at the School is a specialization in Cyber Security & Forensics. The domain of Cybersecurity is targeted at solving problems in multiple interdisciplinary realms owing to the cutting edge technologies such as Cyber Security, Forensics, and Crypto Analysis. This course spans four years and shall groom students for various career options such as Cyber Security Analyst, Network Security Analyst, and Information Security Crime Investigator etc. This variety of opportunities shall enable the budding engineer in tackling real world challenges in the field of Cybersecurity, Law Enforcement and others.

About the Program:

COMPUTER SCIENCE & ENGINEERING www.mitwpu.edu.inCyber Security & Forensics

360 Degree Career Opportunities for Cyber Security & Forensics Engineer

Ÿ Security Auditor

Ÿ IT Cybersecurity EngineerŸ Network Security Analyst

Ÿ Security Software DeveloperŸ Security AdministratorŸ Security Manager

Ÿ Penetration Tester

Ÿ Vulnerability Assessor

Software & IT Firms

Ÿ Network Security EngineerŸ Ethical Hacker

Ÿ Cryptologist

Ÿ Cryptographer

Ÿ Crypto analystDigital Consulting

Software EngineerŸ Database AdministratorŸ Product AnalystŸ System Analyst

Robotics & AutomationŸ Cyber/IT Security SpecialistŸ Security ConsultantŸ Lead Software Security

Engineer

Advertising & Mass Communication

Ÿ Computer Support Specialist

Ÿ Computer Hardware Engineer

Ÿ Machine Learning Engineer

Ÿ Machine Learning Engineer

Ÿ Artificial Intelligence Engineer

Data Science Based

Ÿ Cyber Operations Analyst

Analytics Based CompaniesŸ Cyber Security Analyst

Ÿ Computer Support SpecialistŸ Chief Information Security

Officer (CISO)

Ÿ Information Security Crime Investigator

Ÿ Intrusion Detection Specialist

Government & Armed Forces

Ÿ Information Security Analyst

Ÿ Incident Responder

Ÿ Forensic Expert

Ÿ Space and Satellite

Power Sector: Generation, Transmission & Distribution

Ÿ Universities and several other sectors…

Ÿ Blockchain and Crypto currency Technologies Ÿ Secure Software Design & Enterprise Computing

Facets of Professional Electives under Cyber Security & Forensics:

Ÿ Artificial IntelligenceŸ Malware Analysis and Reverse Engineering

Ÿ Big Data Analysis and Visualization Ÿ Security of E-Based Systems Ÿ Artificial Intelligence

Ÿ Malware Analysis and Reverse Engineering

Artificial Intelligence & Data ScienceCOMPUTER SCIENCE & ENGINEERING

At MIT-WPU, our objective is to empower students for the next age of Artificial Intelligence and Analytics which has opened up rewarding career and research opportunities.The School of Computer Engineering and Technology will provide the students with focused guidance, plethora of opportunities and lifelong learning ability to embark upon their future career.

Artificial Intelligence and Data Science is the future of technology that is changing the world at a very high pace. We are in the world of information exchange and technical pursuits with the humongous power of computing machines. These machines process data at lightning speed due to high speed GPUs and Data Centres. With these advancements in the digital and computing world to tackle complex real world challenges, real-time applications like e-commerce, Healthcare, Education, Agriculture, Science and Technology have seen massive growth. There is an increasing demand in the IT industry for the implementation of advanced analytics using Artificial Intelligence, Machine Learning, Statistical models and Big Data platforms. This specialized course intends to imbibe the core knowledge of the AI & DS and make the students industry-ready for their dream job in the field of Artificial Intelligence and Data Science.

Why Computer Science & Engineering (Artificial Intelligence & Data Science)?

The School of Computer Engineer ing and Technology is the most sought after school in the Faculty of Engineering and Technology. One of the new courses offered at the School is a specialization in Artificial Intelligence and Data Science. The domain of Artificial Intelligence and Data Science(AI & DS) is capab le o f so lv ing prob lems in mu l t ip le interdisciplinary realms owing to cutting edge technologies such as Big Data Analytics, Machine Learning, Cognitive Computing, Data Visualization, Deep Learning, Statistics, etc. This course spans four years and shall groom students for various career options such as Data Scientists, Business Analysts, Researchers etc. This variety of opportunities shall enable the budding engineer in tackling real world challenges in the field of Machine Learning, Statistics, Knowledge Discovery and Data Visualization.

Our experienced and eminent faculties shall teach advanced technologies, emerging tools, latest trends and developments and Peace courses as a part of this program. The School is fully equipped with more than 27 modern laboratories. Some of the prominent laboratories are Machine Learning Laboratory, Web Technology Laboratory, Data Analytics Laboratory and Artificial Intelligence Laboratory to name a few. The School is proudly associated with the Center of Excellence established by MNCs like IBM, AMDOCS, NVIDIA and IEEE Pune section (Affordable Agriculture Technology Laboratory). The School has excellent relations and MoUs with its academic and

research partners like NVIDIA, Sigma, Mobiliya, izealiant technologies, C-DAC and Carenx

to name a few. Computer Science and Engineering curriculum is imparted

with various active learning methods like Project Based Learning (PBL), Experiential Learning, Choice Based Course Selection, Capstone Pro jects and E lect ives . The curriculum focuses more on hands-on sessions and mini-projects. Students can envision to participate

in various National/International technical forums and competitions

l i k e R o b o c o n , H a c k a t h o n , TechnoVision. Students wi l l get

exposure to the corporate environments through industry internships and national

tours that promote their professional and ethical growth. The final year B.Tech students

shall pursue a Capstone Project to learn and implement latest technical and research offerings

of industry and R&D.

About the Program: 360 Degree Career Opportunities for an Artificial Intelligence & Data Science Engineer

Facets of Professional Electives under AI & DS:

Ÿ Predictive AnalyticsŸ Social Media Analytics

Ÿ Health InformaticsŸ Bio Inspired Computing

No matter what the new AI economy means for the future workforce, college students and young professionals stand to benefit from entering this burgeoning field. Listed below are some of the popular Computer Engineering job profiles:

Ÿ AI & ML in GamingŸ Augmented Reality & Virtual Reality

Ÿ Video Processing & AnalyticsŸ Time Series Analysis & forecasting

The School of Computer Engineering and Technology has received grants from AICTE, IEEE and IBM for setting up a laboratory and/research projects. The School provides a platform for internships to the students of third year. A total of 190+ companies visited the campus for paid internships with the highest package offered of INR 50,000/- by NVIDIA. The incubator facility at the School nurtures bright minds to develop their ideas into start-ups. The School of Computer Engineering and Technology encourages students to participate in various national/international competitions like “Hackathon” to showcase their skills and talent. We have set up IEEE Affordable Agriculture Technology Laboratory for providing affordable solutions to the farming community/agriculture sector. Students are working on IBM funded research projects to solve real world problems using Data Science, Machine Learning, and Artificial Intelligence.

Software Engineer

Database Administrator

Software Architect

Data Scientist

Data Analyst

Cloud and Data Platform Architect

Machine Learning Architect

Artificial Intelligence Engineer

Application Developer and Entrepreneur

Research Organizations

Big Data Engineer

Platform Architect

Robotics and Automation

Product Analyst

System Analyst

System Analyst in Public Sector Companies

Information Security Analyst Several other sectors…

www.mitwpu.edu.in

Artificial Intelligence & Data ScienceCOMPUTER SCIENCE & ENGINEERING

At MIT-WPU, our objective is to empower students for the next age of Artificial Intelligence and Analytics which has opened up rewarding career and research opportunities.The School of Computer Engineering and Technology will provide the students with focused guidance, plethora of opportunities and lifelong learning ability to embark upon their future career.

Artificial Intelligence and Data Science is the future of technology that is changing the world at a very high pace. We are in the world of information exchange and technical pursuits with the humongous power of computing machines. These machines process data at lightning speed due to high speed GPUs and Data Centres. With these advancements in the digital and computing world to tackle complex real world challenges, real-time applications like e-commerce, Healthcare, Education, Agriculture, Science and Technology have seen massive growth. There is an increasing demand in the IT industry for the implementation of advanced analytics using Artificial Intelligence, Machine Learning, Statistical models and Big Data platforms. This specialized course intends to imbibe the core knowledge of the AI & DS and make the students industry-ready for their dream job in the field of Artificial Intelligence and Data Science.

Why Computer Science & Engineering (Artificial Intelligence & Data Science)?

The School of Computer Engineer ing and Technology is the most sought after school in the Faculty of Engineering and Technology. One of the new courses offered at the School is a specialization in Artificial Intelligence and Data Science. The domain of Artificial Intelligence and Data Science(AI & DS) is capab le o f so lv ing prob lems in mu l t ip le interdisciplinary realms owing to cutting edge technologies such as Big Data Analytics, Machine Learning, Cognitive Computing, Data Visualization, Deep Learning, Statistics, etc. This course spans four years and shall groom students for various career options such as Data Scientists, Business Analysts, Researchers etc. This variety of opportunities shall enable the budding engineer in tackling real world challenges in the field of Machine Learning, Statistics, Knowledge Discovery and Data Visualization.

Our experienced and eminent faculties shall teach advanced technologies, emerging tools, latest trends and developments and Peace courses as a part of this program. The School is fully equipped with more than 27 modern laboratories. Some of the prominent laboratories are Machine Learning Laboratory, Web Technology Laboratory, Data Analytics Laboratory and Artificial Intelligence Laboratory to name a few. The School is proudly associated with the Center of Excellence established by MNCs like IBM, AMDOCS, NVIDIA and IEEE Pune section (Affordable Agriculture Technology Laboratory). The School has excellent relations and MoUs with its academic and

research partners like NVIDIA, Sigma, Mobiliya, izealiant technologies, C-DAC and Carenx

to name a few. Computer Science and Engineering curriculum is imparted

with various active learning methods like Project Based Learning (PBL), Experiential Learning, Choice Based Course Selection, Capstone Pro jects and E lect ives . The curriculum focuses more on hands-on sessions and mini-projects. Students can envision to participate

in various National/International technical forums and competitions

l i k e R o b o c o n , H a c k a t h o n , TechnoVision. Students wi l l get

exposure to the corporate environments through industry internships and national

tours that promote their professional and ethical growth. The final year B.Tech students

shall pursue a Capstone Project to learn and implement latest technical and research offerings

of industry and R&D.

About the Program: 360 Degree Career Opportunities for an Artificial Intelligence & Data Science Engineer

Facets of Professional Electives under AI & DS:

Ÿ Predictive AnalyticsŸ Social Media Analytics

Ÿ Health InformaticsŸ Bio Inspired Computing

No matter what the new AI economy means for the future workforce, college students and young professionals stand to benefit from entering this burgeoning field. Listed below are some of the popular Computer Engineering job profiles:

Ÿ AI & ML in GamingŸ Augmented Reality & Virtual Reality

Ÿ Video Processing & AnalyticsŸ Time Series Analysis & forecasting

The School of Computer Engineering and Technology has received grants from AICTE, IEEE and IBM for setting up a laboratory and/research projects. The School provides a platform for internships to the students of third year. A total of 190+ companies visited the campus for paid internships with the highest package offered of INR 50,000/- by NVIDIA. The incubator facility at the School nurtures bright minds to develop their ideas into start-ups. The School of Computer Engineering and Technology encourages students to participate in various national/international competitions like “Hackathon” to showcase their skills and talent. We have set up IEEE Affordable Agriculture Technology Laboratory for providing affordable solutions to the farming community/agriculture sector. Students are working on IBM funded research projects to solve real world problems using Data Science, Machine Learning, and Artificial Intelligence.

Software Engineer

Database Administrator

Software Architect

Data Scientist

Data Analyst

Cloud and Data Platform Architect

Machine Learning Architect

Artificial Intelligence Engineer

Application Developer and Entrepreneur

Research Organizations

Big Data Engineer

Platform Architect

Robotics and Automation

Product Analyst

System Analyst

System Analyst in Public Sector Companies

Information Security Analyst Several other sectors…

www.mitwpu.edu.in

SUBSEA LAB

It is estimated that the energy demand in developing nations will rise by 65 percent between 2010 and 2040. Oil will remain the primary global fuel, while natural gas will overtake coal for the second spot.

A large country like India needs energy and one of the potential sources is subsea reserves. Aker Solutions embarked on an education initiative with MIT to introduce subsea engineering as a subject and support the development of subsea knowledge and skills.

Why Subsea Lab?

Ÿ It is about bringing oil and gas from deep waters to the shore from depths of 300 meters to 5000 meters water depth.

Ÿ Aspect of project execution ranges from engineering to supply chain to fabrication to logistics to installation to commissioning and is a critical activity and needs analysis.

Ÿ These are depths where human intervention is not possible, and risks are very high – and so are the reliability requirements

What is Subsea Technology?

In our current scenario of globalization, providing quality education and addressing the widening skill gap within various industries by making education more relevant is the need of the hour.

Understanding this, the MIT World Peace University (MIT-WPU) has come up with a state-of-the-art subsea engineering laboratory development project at its Pune campus. This facility is a corporate social responsibility project by Aker Solutions.

Aker Solutions supported MIT-WPU on this project from concept to completion including the laboratory’s design, procurement, fabrication, installations, assembly and equipment testing. Aker Solut ions is a lso act ive ly involved in the commissioning of the project and its working modules. A combined group of MIT faculty members, s t u d e n t s , a n d A ke r S o l u t i o n s e n g i n e e r s conceptualized the laboratory’s experiments on well performance and the remote operating vehicles.

The aim is to create a world-class, state of the art prototype working system to conduct and demonstrate the deep-water offshore production operations. The subsea engineering laboratory has been developed and established at the MIT-WPU campus in Pune. Subsea architecture has been simulated and scaled down to field dimensions in its operational form in this laboratory. This is a unique corporate social responsibility project undertaken by Aker Solutions. Both Aker Solutions and MIT-WPU are passionate about the progress and development of this facility.

Subsea Engineering Laboratory at MIT Pune:

Extent of scope and utilization of Subsea Engineering laboratory facility in teaching, learning and research:

Ÿ HSE and subsea engineering workshops and professional training programs jointly with the industry.

Ÿ Demonstration and performance of laboratory experiments of academic importance for UG and PG students of petroleum engineering.

Ÿ Subsea engineering awareness programs and walk in tours for industry professionals, college and school students.

Ÿ Training on drilling and well control simulation facility and experiments to be performed using a real-time drilling and well control system for delivering hands-on training.

Ÿ Research facility for M. Tech. and Ph. D scholars and faculty members in collaboration with the upstream E&P, drilling and oilfield service companies with the active participation of their professionals.

Ÿ Subsea oil and gas developments are increasing in the global picture. The growth is expected to continue.

Ÿ Like with other engineering industries, availability of skilled resources to manage the growth is a challenge.

Ÿ There is a need for skilled personnel in India to explore the local and international markets.

Opportunities in interdisciplinary areas of research:While covering the major domains of petroleum engineering, it is anticipated that following would be the broad areas of science and engineering in which interdisciplinary research projects can be undertaken:

Vibration Analysis Subsurface Production and Reservoir Engineering

Fluid Dynamics

Fluid Machineries

Advanced Instrumentation and Process Control

Data Science and Analytics

Surface Production Facilities Engineering

Enhanced Oil Recovery

Drilling and Well Control

Robotics, ROVs in Subsea Engineering

Underwater Electronics and Fabrication

Flow Assurance

Pipeline Transportation

Key Highlights:

It is expected that this Center for Subsea Engineering Research will be operationalized with its building blocks in the coming few months and can be considered as a great example of industry academia collaboration. This will serve as an extension to academic knowledge on various domains of petroleum engineering. It will come out as a major producer of researchers, innovators, and start-ups, entrepreneurs from different disciplines working jointly to create new conceptual and methodological innovations in various transdisciplinary areas at the MIT-WPU campus.

www.mitwpu.edu.in

SUBSEA LAB

It is estimated that the energy demand in developing nations will rise by 65 percent between 2010 and 2040. Oil will remain the primary global fuel, while natural gas will overtake coal for the second spot.

A large country like India needs energy and one of the potential sources is subsea reserves. Aker Solutions embarked on an education initiative with MIT to introduce subsea engineering as a subject and support the development of subsea knowledge and skills.

Why Subsea Lab?

Ÿ It is about bringing oil and gas from deep waters to the shore from depths of 300 meters to 5000 meters water depth.

Ÿ Aspect of project execution ranges from engineering to supply chain to fabrication to logistics to installation to commissioning and is a critical activity and needs analysis.

Ÿ These are depths where human intervention is not possible, and risks are very high – and so are the reliability requirements

What is Subsea Technology?

In our current scenario of globalization, providing quality education and addressing the widening skill gap within various industries by making education more relevant is the need of the hour.

Understanding this, the MIT World Peace University (MIT-WPU) has come up with a state-of-the-art subsea engineering laboratory development project at its Pune campus. This facility is a corporate social responsibility project by Aker Solutions.

Aker Solutions supported MIT-WPU on this project from concept to completion including the laboratory’s design, procurement, fabrication, installations, assembly and equipment testing. Aker Solut ions is a lso act ive ly involved in the commissioning of the project and its working modules. A combined group of MIT faculty members, s t u d e n t s , a n d A ke r S o l u t i o n s e n g i n e e r s conceptualized the laboratory’s experiments on well performance and the remote operating vehicles.

The aim is to create a world-class, state of the art prototype working system to conduct and demonstrate the deep-water offshore production operations. The subsea engineering laboratory has been developed and established at the MIT-WPU campus in Pune. Subsea architecture has been simulated and scaled down to field dimensions in its operational form in this laboratory. This is a unique corporate social responsibility project undertaken by Aker Solutions. Both Aker Solutions and MIT-WPU are passionate about the progress and development of this facility.

Subsea Engineering Laboratory at MIT Pune:

Extent of scope and utilization of Subsea Engineering laboratory facility in teaching, learning and research:

Ÿ HSE and subsea engineering workshops and professional training programs jointly with the industry.

Ÿ Demonstration and performance of laboratory experiments of academic importance for UG and PG students of petroleum engineering.

Ÿ Subsea engineering awareness programs and walk in tours for industry professionals, college and school students.

Ÿ Training on drilling and well control simulation facility and experiments to be performed using a real-time drilling and well control system for delivering hands-on training.

Ÿ Research facility for M. Tech. and Ph. D scholars and faculty members in collaboration with the upstream E&P, drilling and oilfield service companies with the active participation of their professionals.

Ÿ Subsea oil and gas developments are increasing in the global picture. The growth is expected to continue.

Ÿ Like with other engineering industries, availability of skilled resources to manage the growth is a challenge.

Ÿ There is a need for skilled personnel in India to explore the local and international markets.

Opportunities in interdisciplinary areas of research:While covering the major domains of petroleum engineering, it is anticipated that following would be the broad areas of science and engineering in which interdisciplinary research projects can be undertaken:

Vibration Analysis Subsurface Production and Reservoir Engineering

Fluid Dynamics

Fluid Machineries

Advanced Instrumentation and Process Control

Data Science and Analytics

Surface Production Facilities Engineering

Enhanced Oil Recovery

Drilling and Well Control

Robotics, ROVs in Subsea Engineering

Underwater Electronics and Fabrication

Flow Assurance

Pipeline Transportation

Key Highlights:

It is expected that this Center for Subsea Engineering Research will be operationalized with its building blocks in the coming few months and can be considered as a great example of industry academia collaboration. This will serve as an extension to academic knowledge on various domains of petroleum engineering. It will come out as a major producer of researchers, innovators, and start-ups, entrepreneurs from different disciplines working jointly to create new conceptual and methodological innovations in various transdisciplinary areas at the MIT-WPU campus.

www.mitwpu.edu.in

DIRECT SECOND YEAR B.Tech

Candidates who have PASSED OUT Diploma Course in Engineering and Technology from any All India Council for Technical Education OR Central OR State Government approved Institution OR its equivalent Institute.

Who can Apply:

(Electronics and Communication Engineering, Mechanical , Mechanical with Robotics and Automation, Civil, Electrical, Chemical, Chemical, Petroleum, Polymer Engineering)

MIT-WPU Faculty of Engineering is offering the option of a minor in Computer Science and Engineering along with pursuing major in their chosen B.Tech specialization. This will bridge the gap between industry and academia. Eligible students will gain a competitive edge by acquiring additional expertise. To earn the minor in Computer Science and Engineering, the student should acquire an additional 20 credits defined for a minor in Computer Science and Engineering. These credits are in addition to the mandatory credits of the B.Tech Program at MIT-WPU in which the student is admitted.

Minor in Computer Engineering for Non Computer branches

www.mitwpu.edu.in

Duration: Three Years, Full-time Program

Pattern: Trimester System (Nine Trimesters)

Credit System: Choice Based Credit System

3. B. Tech Mechanical (Robotics & Automation Engineering)

4. B. Tech Electrical Engineering

1. B. Tech Computer Science & Engineering

8. B. Tech Chemical Engineering

9. B. Tech Electronics & Communication Engineering

6. B. Tech Polymer Engineering

2. B. Tech Mechanical Engineering

7. B. Tech Petroleum Engineering

5. B. Tech Civil Engineering

Courses Offered

Merit Scholarships for B.Tech Direct Second Year Programs (Lateral Entry)

Group 1 Group 2

1. Computer Science & Engineering,2. Mechanical (Robotics & Automation Engineering)

2. Civil Engineering, 3. Electrical Engineering,4. Polymer Engineering,

6. Petroleum Engineering, 7. Electronics & Communication Engineering

5. Chemical Engineering,

1. Mechanical Engineering,

Examination

% in Final Year Diploma (2020-21, 2019-20 & 2018-19 Batches)

% of Scholarship Examination

% in Final Year Diploma (2020-21, 2019-20 & 2018-19 Batches)

% of Scholarship

Diploma Score range for scholarship

Greater than 96 50%

Diploma Score range for scholarship

87 & above 75%

Greater than & or equal to 93 40% 85 & above 60%

Greater than & or equal to 88 30% 83 & above 50%

80 & above 25%

Scholarships:

Candidate must have passed Diploma Course in Engineering and Technology with at least 45% marks (40% criteria for Reserved Category candidates and for candidates with Disability from Maharashtra State only) in appropriate branch of Engineering and Technology from an All India Council for Technical Education OR Central OR State Government approved Institution OR its equivalent Institute.

Eligibility:Selection is purely based on Diploma Marks.

Selection:

Admission process

Approaching College

Admission Counselling

Join WhatsappGroup

Merit List Generation

Provisional Seat Allotment

Offer Letter to take Admission at MITWPU

Admission Confirmation by the student

Registration Form Filling

DIRECT SECOND YEAR B.Tech

Candidates who have PASSED OUT Diploma Course in Engineering and Technology from any All India Council for Technical Education OR Central OR State Government approved Institution OR its equivalent Institute.

Who can Apply:

(Electronics and Communication Engineering, Mechanical , Mechanical with Robotics and Automation, Civil, Electrical, Chemical, Chemical, Petroleum, Polymer Engineering)

MIT-WPU Faculty of Engineering is offering the option of a minor in Computer Science and Engineering along with pursuing major in their chosen B.Tech specialization. This will bridge the gap between industry and academia. Eligible students will gain a competitive edge by acquiring additional expertise. To earn the minor in Computer Science and Engineering, the student should acquire an additional 20 credits defined for a minor in Computer Science and Engineering. These credits are in addition to the mandatory credits of the B.Tech Program at MIT-WPU in which the student is admitted.

Minor in Computer Engineering for Non Computer branches

www.mitwpu.edu.in

Duration: Three Years, Full-time Program

Pattern: Trimester System (Nine Trimesters)

Credit System: Choice Based Credit System

3. B. Tech Mechanical (Robotics & Automation Engineering)

4. B. Tech Electrical Engineering

1. B. Tech Computer Science & Engineering

8. B. Tech Chemical Engineering

9. B. Tech Electronics & Communication Engineering

6. B. Tech Polymer Engineering

2. B. Tech Mechanical Engineering

7. B. Tech Petroleum Engineering

5. B. Tech Civil Engineering

Courses Offered

Merit Scholarships for B.Tech Direct Second Year Programs (Lateral Entry)

Group 1 Group 2

1. Computer Science & Engineering,2. Mechanical (Robotics & Automation Engineering)

2. Civil Engineering, 3. Electrical Engineering,4. Polymer Engineering,

6. Petroleum Engineering, 7. Electronics & Communication Engineering

5. Chemical Engineering,

1. Mechanical Engineering,

Examination

% in Final Year Diploma (2020-21, 2019-20 & 2018-19 Batches)

% of Scholarship Examination

% in Final Year Diploma (2020-21, 2019-20 & 2018-19 Batches)

% of Scholarship

Diploma Score range for scholarship

Greater than 96 50%

Diploma Score range for scholarship

87 & above 75%

Greater than & or equal to 93 40% 85 & above 60%

Greater than & or equal to 88 30% 83 & above 50%

80 & above 25%

Scholarships:

Candidate must have passed Diploma Course in Engineering and Technology with at least 45% marks (40% criteria for Reserved Category candidates and for candidates with Disability from Maharashtra State only) in appropriate branch of Engineering and Technology from an All India Council for Technical Education OR Central OR State Government approved Institution OR its equivalent Institute.

Eligibility:Selection is purely based on Diploma Marks.

Selection:

Admission process

Approaching College

Admission Counselling

Join WhatsappGroup

Merit List Generation

Provisional Seat Allotment

Offer Letter to take Admission at MITWPU

Admission Confirmation by the student

Registration Form Filling

`37.26lakhs p.a Highest Salary

`6.5lakhs p.a Average Salary

180+Average number of companies visited

A unique initiative by MIT World Peace University

The objective of this initiative is to build a strong collaboration between university and industry partners. CIAP believes that the collaboration between industry and academia is fundamental in catalysing the innovation and growth in technology. While industry partners quite often focus on providing solutions that have greater impact on businesses, educational institutions focus on building new knowledge through research and imparting education to students which make them ready to

The key functions like Industry Partnerships, Career Services, Internships and Alumni Engagement are forefront in serving the ongoing needs of our students and alumni. These functions not only engage the students in improving their skills through the structured assessments, training and grooming activities, they also help students gain the strength to get best of the job opportunities by collaborating world class employers.

serve those industry needs. CIAP as a catalyst plays an important role in creating more and more opportunities and make student equip with the skills that are needed to be served.

Centre for Industry Academia Partnerships

Abhay PatneSchool of Electronics and

Communication EngineeringRakuten Mobile Network, 37.26

Aditya DholeSchool of Computer Science &

EngineeringNTT DATA (Japan), 30.81

Dhwiti Hemant PatelSchool of Petroleum

EngineeringCairn Oil & Gas, CTC 13

Parikshit VashishthaSchool of Petroleum

EngineeringCairn Oil & Gas, CTC 13

Souma Suvra DharSchool of Petroleum

EngineeringCairn Oil & Gas, CTC 13

Shebin SilvisterSchool of Computer Science &

Engineering Avaya India Pvt Ltd., CTC 12.08

Harshad Harish HonwadSchool of Mechanical

Engineering L'Oréal India Pvt. Ltd.., CTC 11

Vikas AgrawalSchool of Petroleum Engineering

Exxonmobil Services & Technology CTC 10.81

Ashish AtkarSchool of Computer Science

& EngineeringIntegrated Decision & Systems India Pvt. Ltd. (IDEAS), CTC 9

Devashish BoteSchool of Computer Science

& EngineeringIntegrated Decision & Systems India Pvt. Ltd. (IDEAS), CTC 9

Indira Aniruddha PimpalkhareSchool of Computer Science

& EngineeringApisero India Pvt. Ltd., CTC 9

Rujul Walvekar School of Computer Science

& EngineeringAccolite Digital, CTC 9

www.mitwpu.edu.in

`37.26lakhs p.a Highest Salary

`6.5lakhs p.a Average Salary

180+Average number of companies visited

A unique initiative by MIT World Peace University

The objective of this initiative is to build a strong collaboration between university and industry partners. CIAP believes that the collaboration between industry and academia is fundamental in catalysing the innovation and growth in technology. While industry partners quite often focus on providing solutions that have greater impact on businesses, educational institutions focus on building new knowledge through research and imparting education to students which make them ready to

The key functions like Industry Partnerships, Career Services, Internships and Alumni Engagement are forefront in serving the ongoing needs of our students and alumni. These functions not only engage the students in improving their skills through the structured assessments, training and grooming activities, they also help students gain the strength to get best of the job opportunities by collaborating world class employers.

serve those industry needs. CIAP as a catalyst plays an important role in creating more and more opportunities and make student equip with the skills that are needed to be served.

Centre for Industry Academia Partnerships

Abhay PatneSchool of Electronics and

Communication EngineeringRakuten Mobile Network, 37.26

Aditya DholeSchool of Computer Science &

EngineeringNTT DATA (Japan), 30.81

Dhwiti Hemant PatelSchool of Petroleum

EngineeringCairn Oil & Gas, CTC 13

Parikshit VashishthaSchool of Petroleum

EngineeringCairn Oil & Gas, CTC 13

Souma Suvra DharSchool of Petroleum

EngineeringCairn Oil & Gas, CTC 13

Shebin SilvisterSchool of Computer Science &

Engineering Avaya India Pvt Ltd., CTC 12.08

Harshad Harish HonwadSchool of Mechanical

Engineering L'Oréal India Pvt. Ltd.., CTC 11

Vikas AgrawalSchool of Petroleum Engineering

Exxonmobil Services & Technology CTC 10.81

Ashish AtkarSchool of Computer Science

& EngineeringIntegrated Decision & Systems India Pvt. Ltd. (IDEAS), CTC 9

Devashish BoteSchool of Computer Science

& EngineeringIntegrated Decision & Systems India Pvt. Ltd. (IDEAS), CTC 9

Indira Aniruddha PimpalkhareSchool of Computer Science

& EngineeringApisero India Pvt. Ltd., CTC 9

Rujul Walvekar School of Computer Science

& EngineeringAccolite Digital, CTC 9

www.mitwpu.edu.in

CORPORATE RELATIONS & PLACEMENTS

Shubham JainSchool of Computer Science

& EngineeringApisero India Pvt. Ltd., CTC 9

Rutuja BhandiganiSchool of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Rutvik NaikSchool of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Shubham PattekarSchool of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Smit Kesarkar School of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Sonawane Manasi SunilSchool of Computer Science

& EngineeringHalliburton Development Center

India LLP., CTC 8.68

Shreyanshi TripathiSchool of Computer Science

& EngineeringeQ Technologic, CTC 8.50

Shivam MishraSchool of Electronics &

Communication EngineeringQuantiphi Analytics

Solutions Pvt. Ltd., CTC 8.50

Jaiesh GuptaSchool of Electrical EngineeringDeloitte Consulting., CTC 7.60

Supreet ChadhaSchool of Electronics &

Communication EngineeringDeloitte Consulting., CTC 7.60

Kritika GulatiSchool of Chemical EngineeringCognizant Technology Solutions

India Pvt Ltd., CTC 6.76

Samruddhi Sanjay MangrulkarSchool of Civil Engineering

Tata Power Company Ltd., CTC 6

TM

www.mitwpu.edu.in

CORPORATE RELATIONS & PLACEMENTS

Shubham JainSchool of Computer Science

& EngineeringApisero India Pvt. Ltd., CTC 9

Rutuja BhandiganiSchool of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Rutvik NaikSchool of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Shubham PattekarSchool of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Smit Kesarkar School of Computer Science

& EngineeringZS Associates

India Pvt. Ltd., CTC 8.93

Sonawane Manasi SunilSchool of Computer Science

& EngineeringHalliburton Development Center

India LLP., CTC 8.68

Shreyanshi TripathiSchool of Computer Science

& EngineeringeQ Technologic, CTC 8.50

Shivam MishraSchool of Electronics &

Communication EngineeringQuantiphi Analytics

Solutions Pvt. Ltd., CTC 8.50

Jaiesh GuptaSchool of Electrical EngineeringDeloitte Consulting., CTC 7.60

Supreet ChadhaSchool of Electronics &

Communication EngineeringDeloitte Consulting., CTC 7.60

Kritika GulatiSchool of Chemical EngineeringCognizant Technology Solutions

India Pvt Ltd., CTC 6.76

Samruddhi Sanjay MangrulkarSchool of Civil Engineering

Tata Power Company Ltd., CTC 6

TM

www.mitwpu.edu.in

Approaching College

WPU Registration form filling

Admission Counselling

Join WhatsappGroup

CET Examination CET Orientation Workshop

CET Form Filling CET Guidance

Interview CET Result Merit List declaration

Offer letter to take admission

Admission process

ScholarshipScholarship

MERIT SCHOLARSHIPS - B.Tech. PROGRAMS 2021-22

NAME & PERCENTAGE OF MERIT SCHOLARSHIP 2021-22

Group 'A' Group 'B' Group 'C’

2) CSE (AI & D)

4) CSE (Cyber Security & Forensics)

(BEST OF 2 SCORES)

1) CSE

3) CSE(Computer Science & Business Systems)

3. Electrical & Computer Engineering, 4. Mechanical Engineering,

(BEST OF 2 SCORES)

1. ECE

5. Mechanical (Robotics & Automation Engineering)

2. ECE (AI & ML) 2. Civil Engineering (Smart Infrastructure & Construction Engineering),

4. Bio Engineering5. Petroleum Engineering

1. Civil Engineering,

3. Chemical Engineering,

(BEST OF 3 SCORES)

JEE Main 2021

[percentile] [percentile]

MHT-CET 2021

[percentile]

JEE Main 2021

MHT-CET 2021

[percentile]

% in Class 12 or equivalent from

recognized schools in India excluding

open schools

JEE Main 2021

[percentile]

MHT-CET 2021

[percentile]

% in Class 12 or equivalent from

recognized schools in India excluding

open schools

Dr. Vishwanath Karad Merit Scholarship. 100% for total duration of the program.

97 & above 98 & above 93 & above 94 & above NA 88 & above 90 & above NA

MIT-WPU Merit Scholarship 100% for First Year Only

96 & above 97 & above 92 & above 93 & above96 & above / IB Score 43 above

87 & above 88 & above93 & above / IB Score 41 above

75% for First Year Only 95 & above 96 & above 90 & above 92 & above95 & above/ IB Score 41 above

85 & above 86 & above92 & above / IB Score 39 above

50% for First Year Only 94 & above 95 & above 88 & above 90 & above94 & above / IB Score 39 above

84 & above 85 & above91 & above /IB Score 37 above

25% for First Year Only 93 & above 94 & above 84 & above 85 & above93 & above / IB Score 37 above

79 & above 80 & above90 & above/ IB Score 35 above

10% for First Year Only - - 80 & above 81 & above92 & above / IB Score 37 above

75 & above 76 & above88 & above/ IB Score 35 above

Ÿ Students taken Admission under J & K QuotaŸ Scholarship to Rank Holders for AY 2021-22

Ÿ Scholarship Awarded to Wards of MIT-WPU/ MAEER’s Staff Members

Ÿ MIT-WPU Merit Scholarship AY 2021-22

Ÿ Scholarships to Elite Sportsperson AY 2021-22

Ÿ Dr. Vishwanath Karad Merit Scholarship AY 2021-22

The categories of Merit Scholarships are detailed below. Other Scholarships Ÿ Wards of Personnel working in / retired from

Defence/ Paramilitary Services

Ÿ Candidates with a disability of 40% and more.Merit scholarships are proposed to reward and motivate the meritorious students with financial assistance based on their the performance in National Level test (JEE-Main) and State Level test (MHT-CET) for the AY 2021-22.

EligibilityCandidate must have passed XII std with Physics, Mathematics and English as compulsory subjects, with min 50% marks in PCM group (45% for reserved category candidates)

SelectionJEE Main 2021 score OR MHT-CET 2021 score OR WPU-MEET OR Pera CET 2021 Score

Disclaimer : The information published in this booklet is true to our knowledge and is correct at the time of publishing. Also the pictures, photographs, illustrations, facts and figures, quotations, etc. appearing in this booklet have been collected from various sources and should not be used for any commercial purposes or reproduced in any form without prior permission. The given information in brochure is Indicative and subject to change for betterment of the programme. Subject to Pune jurisdiction only.

UNESCO Chair for Human Rights,Democracy, Peace & Tolerance

World Peace Centre (Alandi) Pune, India

Paud Road, Kothrud, Pune-38. 020 7117 7137 / 42 9881492848admissions@mitwpu.edu.in

mitwpu.edu.in

APPLY ONLINE

For more details visit https://mitwpu.edu.in/admissions