Production and Operations Management
Transcript of Production and Operations Management
PRODUCTION AND PRODUCTION AND OPERATIONS OPERATIONS
MANAGEMENTMANAGEMENT
INPUT OUTPUT PROCESSINPUT OUTPUT PROCESS
PRODUCTION MANAGEMENTPRODUCTION MANAGEMENT
• Planning, implementation, and control of industrial production processes to ensure smooth and efficient operation.
• Production management techniques are used in both manufacturing and service industries
TASKS THAT ARE TASKS THAT ARE INTERDEPENDENTINTERDEPENDENT
• PRODUCT – QUALITY, RELIABILITY, COST, QUANTITY,OTHER FEATURES
• PLANT – FC, MC,SAFETY,LAYOUT• PROCESSES – CAPACITY,SKILLS• PROGRAMME – PURCHASING PATTERN,
STORAGE ETC• PEOPLE – SALARIES, LEADERSHIP• PLANNING AND CONTROL
INTEGRATED PM – FEW INTEGRATED PM – FEW IMP.FUNCTIONSIMP.FUNCTIONS
• 1. IDENTIFICATION N PROCUREMENT N MOVEMENT OF MATERIALS
• 2. QUANTITY N INVENTORY CONTROL
• 3. MAINTENANCE OF MACHINES
• 4. COST N QUALITY CONTROL
• 5. TRG N DEPLOYMENT OF WORKFORCE
• 6. PACKAGING N TIMELY DELIVERY
PRODUCTION PLANNINGPRODUCTION PLANNING
• BROAD CLASSIFICATIONS ARE:-
• ESTIMATING – CAPACITY, MATERIALS, WORK FORCE ETC
• ROUTING – SEQUENCE OF OPS
• SCHEDULING – COMPLETION OF JOBS AT PRE-SET TIMES
PRODUCTION CONTROLPRODUCTION CONTROL
• DISPATCHING – MOVING MATERIALS FROM PLACE TO PLACE, MEETING THE REQUIREMENTS OF ROUTING AND SCHEDULING
• EXPEDITING – CLEARING CONSTRAINTS AND ENSURING SMOOTH FLOW OF WORK AS PER TIME SCHDULES
INVENTORIESINVENTORIES
• INVENTORY CONTROL IS VERY IMPORTANT AS IT AFFECTS CASH FLOWS AND STORAGE COSTS
• JIT AND LEAN MFG ARE SOME METHODS ADOPTED IN INVENTORY CONTROL – TO MINIMISE WASTAGE ACROSS THE ORGN
MATERIAL CONTROLMATERIAL CONTROL
• PROCUREMENT, STORAGE AND ISSUANCE OF MATERIAL FOR THE PURPOSE OF MFG THE PRODUCTS.
• INVOLVES ACTIVITIES LIKE:-• 1. POLICIES – SELECTION OF
SUPPLIERS• 2. QUANTITIES • 3. PRICE FIXING• 4. TERMS OF DELIVERY
FISHBONE DIAGRAMFISHBONE DIAGRAM
The Fishbone diagram is one of the many management tools created by Dr. Kaoru Ishikawa The fishbone diagram and collaborative, team-approach were integral components of Dr. Ishikawa's "Company-Wide Quality Control" (CWQC) quality strategy
• In recognition of his life-long efforts of making "quality" a household word, the American Society for Quality (ASQ) instituted the Ishikawa medal in 1993, an annual award that recognizes leadership in the human side of quality.
CAUSE EFFECT ANALYSISCAUSE EFFECT ANALYSIS
QUALITY CIRCLESQUALITY CIRCLES• 1. FOCUS IS ON ENHANCING
PRODUCTIVITY AND QUALITY
• 2. INVOLVES ALL PERSONS
• 3. CREATIVITY AND TEAMWORK
• 4. INCREMENTAL CHANGES
• 5. IDENTIFICATION OF FAILURES/DEFECTS AND METHODS TO AVOID THE SAME
ADDITIONAL STRATEGIESADDITIONAL STRATEGIES
• OUTSTOURCING
• METHODS IMPROVEMENTS
• BALANCING OF WORKSTATIONS
LABOUR PRODUCTIVITYLABOUR PRODUCTIVITY
• BALANCING OPS IN ASSEMBLY LINE
• REALLOCATION OF WORKERS
• SETTING UP OF PRODUCTIVITY NORMS AND EVALUATION OF PRODUCTION OPS EX. TIME AND MOTION STUDY, WORK MEASUREMENT METHODS ETC
TRAINING TRAINING
• TNA
• TIME
• BUDGET
• CAREER DEVELOPMENT
• IMPLEMENTATION OF TQM, CHANGE MGT ETC DEPEND ON TRG FOR THEIR SUCESS
SUCCESSFUL TRG SESSIONSUCCESSFUL TRG SESSION
ADVANCED METHODOLOGIES ADVANCED METHODOLOGIES OF PRODUCTIONOF PRODUCTION
• CAD – COMPUTER AIDED DESIGN• DESIGN NEW PARTS OR ALTER EXISTING
ONES,CREATE DRAWINGS AND VIEW FROM DIFF ANGLES – VISUALISATION PROCESS HELPS BETTER OPTIONS
• ANALYSTS USE IT TO STORE, RETIREVE AND CLASSIFY DATA ABOUT VARIOUS PARTS
CIMCIM
• CIM – COMPUTER INTEGRATED MANUFACTURING – COMPUTER AIDS ARE TO THESE FUNCTIONS :-
• 1. PRODN ( FLOW OF MATERIALS)
• 2. DESIGN ( FLOW OF TECH INFO)
• 3. MGT ( FLOW OF MANAGERIAL INFO)
OPS STRATEGYOPS STRATEGY
• OPS FUNCTION SHOULD BE GUIDED BY THE ORGN STRTEGY
• FOCUS IS ON OPTIMISATION OF RESOURCES TO MAKE OPS EFFECTIVE AND PROVIDE A COMPETITIVE EDGE
FORMULATION OF STRATEGY FORMULATION OF STRATEGY
• DEPENDS ON THE FOLLOWING MAIN FACTORS:-
• 1. STRENGTHS
• 2. WEAKNESSES
• 3. OPPORTUNITIES AND THREATS
• 4. RESILENCE OF THE INTERNAL ENVIRONMENT
UMBRELLA OF OPS STRATEGYUMBRELLA OF OPS STRATEGY
• QUALITY
• TIME TAKEN TO DELIVER THE PRODUCT
• FLEXIBILITY TO CATER TO THE CHANGING NEEDS OF THE CUSTOMERS ( SERVICE DIMENSION
STRATEGIC DMSTRATEGIC DM
• 1 . DATA GATHERING, ANALYSIS AND PREDICTING OUTCOMES
• 2. ENVIRONMENTAL SCANNING (PESTEL ANALYSIS)
• 3. CORE COMPETENCIES – UNIQUE STRENGTHS
MAIN CORE PROCESSESMAIN CORE PROCESSES
• CORE COMPETENCY PROCESSES:-
• 1. CRM• 2. NEW PRODUCTS/SERVICE DEV• 3. SUPPLIER RELATIONSHIP• 4. ORDER FULFILMENT• NOTE : CORE COMPETENCIES GIVE IT
A COMPETITIVE EDGE
DIFFERENTIATION STRATEGIESDIFFERENTIATION STRATEGIES
• PROCESS INVOLVES ADDING VALUE TO THE CUSTOMER
• PERCIEVED BY THE CUSTOMER AS IMPORTANT, DISTINCTIVE, SUPERIOR AND AFFORDABLE
• DIFFERENT COS HAVE DIFFERENT POTENTIALS ( 4 PS) – WHICH ARE AFFECTED BY THE COS POSITION IN THE MARKET AND THE INDUSTRY STRUCTURE
PRODUCT DIFFERENTIATIONPRODUCT DIFFERENTIATION
• 1. FORM – SHAPE, DIMENSION, AESTHETICS
• 2. FEATURES - COMPONENTS, PARTS
• 3. QUALITY OF PERFORMANCE - – SERVICEABILITY,REPAIRABLE, DURABILITY, SAFETY
• 4. AESTHETICS - BEAUTY , CREATIVITY
TOOLS FOR IMPLEMENTATIONTOOLS FOR IMPLEMENTATION
• GANTT CHARTS
• SIMULATION MODELS
• ERP, SAP SOFTWARE
• MICROSOFT OPS MANAGER 2005
INDUSTRY BEST PRACTICESINDUSTRY BEST PRACTICES
• OPEN UP BENCHMARKING BY COMPANIES TO ENHANCE PRODUCTIVITY AT ALL LEVELS
• PRAGMATIC BENCH MARKING MEASURES A COMPANY’S PROCESSES, METHODS, AND PROCEDURES – IN A WAY THAT ALL FUNCTIONS IN GREAT DETAIL
BENCHMARKINGBENCHMARKING
• Benchmarking is the process of gathering information about other companies in your industry to compare your performance against and to use to set goals.
• For example one can compare turnover rate against the ten largest companies in the industry when we are benchmarking our HR organization.
DIMENSIONSDIMENSIONS
• COST
• TIME
• QUALITY
• IN SIMPLE WORDS - LEARNING TO DO THINGS BETTER,FASTER, CHEAPER
EXAMPLES OF METRICS USED EXAMPLES OF METRICS USED IN BENCHMARKING IN BENCHMARKING
• COST PER UNIT
• NUMBER OF UNITS PRODUCE/HR
• NUMBER OF BREAKDOWNS/WEEK
• ROI
• INVENTORY TURNOVER
• CUSTOMER ALIENATION/WEEK
• SALES RETURNS FIGURES/WEEK
• ETC….
STEPS IN BENCHMARKINGSTEPS IN BENCHMARKING
• PLANNING
• ANALYSIS
• INTEGRATION
• ACTION
Pareto AnalysisPareto Analysis
• Use of Pareto principle in prioritizing or ranking a range of items which have different levels of significance. Its objective is to separate the 'vital few' from the 'useful many.‘
• Pareto analysis is a statistical technique in decision making used for selection of a limited of number of tasks that produce significant overall effect. It uses the Pareto principle - the idea that by doing 20% of work you can generate 80% of the advantage of doing the entire job.
•
5W2H METHOD5W2H METHOD• SYSTEMATIC APPROACH TO WASTE
REDUCTION – ALAN ROBINSONS• 1. WHAT• 2. WHY• 3. WHERE• 4. WHEN• 5. WHO• 6. HOW ( IS T HERE A BETTER WAY?)• 7. HOW MUCH ( COST NOW? CAN IT BE
REDUCED FURTHER??)
PRODUCTION TECHNIQUESPRODUCTION TECHNIQUES
• ENCOMPASSES:-
1. WORK SYSTEMS ( PROCESS OF MFR)
2. DESIGN OF WORK SYSTEMS
3. PROCESS OF PLANNING AND PRODUCTION CONTROL TECHNIQUES
CHOICES LIKECHOICES LIKE
• 1. HOW TO DEPLOY RESOURCES• 2. IDENTIFYING NEW VENDORS• 3. UPDATING TECHNOLOGY• 4. QUALITY CHALLENGES• 5. BOTTLENECKS IN FLOW OF
MATERIALS AND INFORMATION• 6. INVENTORY MGT• 7. NEW PRODUCTS
AUTOMATIONAUTOMATION
• AUTOMATION IS THE USE OF SCIENTIFIC AND TECHNOLOGICAL PRINCIPLES IN THE MANUFACTURE OF MACHINES THAT TAKE OVER WORK NORMALLY DONE BY HUMANS
ADVANTAGES OFAUTOMATIONADVANTAGES OFAUTOMATION
• 1. IDEAL WHEN PRODUCT MANUFACTURED IS HIGHLY STANDARDIZED
• 2. INCREASE IN QUALITY AND PRODUCTIVITY
• 3. LOW VARIABILITY
• 4. MORE CONSISTENCY
• 5. ECONOMICAL
3 KINDS OF AUTOMATION3 KINDS OF AUTOMATION
• 1. FIXED
• 2. PROGRAMMABLE ( CNC MACHINES)
• 3. FLEXIBLE ( ROBOTS)
ASRSASRS
• AUTOMATED STORAGE AND RETRIEVAL SYSTEMS – RECEIVE ORDERS FOR MATERIALS FROM ANYWHERE IN THE PRODN AREA, COLLECT MATERIALS AND DELIVER MATERIALS TO THE WORKSTATIONS
AGVSAGVS
• AUTOMATED GUIDED VEHICLE SYSTEMS LIKE PALLET TRUCKS AND UNIT LOAD CARRIERS FOLLOW EMBEDDED GUIDE WIRES OR PAINT STRIPS TO REACH DESTINATIONS AS PROGRAMMED
PROTOTYPINGPROTOTYPING
• PROTOTYPING IS A PROCESS BY WHICH A NEW PRODUCT IS DEVELOPED IN SMALL NUMBERS
PROTOTYPE HELPS TOPROTOTYPE HELPS TO
• 1. DETERMINE THE SUITABILITY OF MATERIALS
• 2. STUDY THE VARIOUS METHODS OF MANUFACTURE
• 3. DETERMINE TYPE OF MACHINERY• 4. DEVELOP TECHNIQUES TO TROUBLE
SHOOT • 5. TO STUDY THE COST N TIME DIMENSION• 6. IN CASE OF SERIOUS ISSUES –
DRAMATIC CHANGE IS NECESSARY
RAPID PROTOTYPINGRAPID PROTOTYPING
• RAPID PROTOTYPING USES VIRTUAL DESIGNS FROM CAD OR ANIMATION MODELLING WHICH TRANSFORMS DATA TO 3 D VIEWS
• PHYSICAL SPACE OF THE PRODUCT IS AMENABLE TO HAVE CROSS SECTIONS
• HELPS BUILD SOLID MODELS EXACTLY AS PER THE DRAWINGS
ADVANCED RAPID PROTOTYPE ADVANCED RAPID PROTOTYPE MODELLING PROCESSESMODELLING PROCESSES
• 1. SLS – SELECTIVE LASER SINTERING
• 2. FDM – FUSED DEPOSITION MODELLING
• 3. LOM –LAMINATED OBJECT MANUFACTURE
• 4. EBM – ELECTRONIC BEAM MELTING
BUILDING MFG FLEXIBILITYBUILDING MFG FLEXIBILITY
• THREE DIMENSIONS:-• 1. VARIETY
• 2. VOLUME
• 3. TIME • NOTE – FLEXIBILITY CATERS FOR CHANGE,
ENHANCING CUSTOMER SATISFACTION, DEVELOP NEW PRODUCTS OR MAKE IMPROVEMENTS IN THE PRODUCTS
FACILITIES MANAGEMENTFACILITIES MANAGEMENT
• IT IS A STRATEGIC LEVEL DECISION OF THE TOP MGT
• IT INVOLVES PLANNING AND MANAGEMENT OF THE PLANT LOCATION AND THE LAYOUT
CONSIDERATIONS IN LOCATION CONSIDERATIONS IN LOCATION AND LAYOUT OF PLANTAND LAYOUT OF PLANT
• 1. COMPANY’S EXPANSION PLAN
• 2. DIVERSIFICATION PLAN – PRODUCTS
• 3. CHANGING MKT CONDITIONS
• 4. CHANGING SOURCE OF RAW MATERIALS
• 5. OUTSOURCING
• 6. AUTOMATION, GP TECHNOLOGY
FACTORS INFLUENCING PLANT FACTORS INFLUENCING PLANT LOCATIONLOCATION
• 1. GENERAL FACTORS – AVAILABILITY OF LAND, LABOR, RAW MATERIALS ETC
• 2.SPECIAL FACTORS – CULTURAL , REGIONAL , ECONOMIC , JOINT VENTURES ETC
GENERAL FACTORSGENERAL FACTORS• 1. LAND AVAILABILITY
• 2. INPUTS AVAILABILITY
• 3. MARKET PROXIMITY
• 4. INFRASTRUCTURE
• 5. TRANSPORT
• 6. GOVERNMENT SUPPORT
• 7. COMMUNICATION
• 8. TAX, HOUSING, EDUCATION, RECREATION ETC….
RATING METHODSRATING METHODS
• EVERY FACTOR HAS A WEIGHTAGE – THEREFORE CAN BE RANKED TO DETERMINE THE OPTIMAL LOCATION
• 1. RATING PLAN METHOD
• 2. FACTOR RATING METHOD
• 3. POINT RATING METHOD
• 4. BREAK –EVEN ANALYSIS
• 5. CENTER OF GRAVITY METHOD
OPTIMISATION OF RESOURCESOPTIMISATION OF RESOURCES
• 1. LAND, MACHINERY, EQUIPMENT, TOOLS, RAW MATERIALS, POWER
• 2. PROCESSES, TECH, TECHNIQUES, DELIVERY OF SERVICES
• 3. PEOPLE – INTERNAL(EMPLOYEES) AND EXTERNAL (CUSTOMERS, SUPPLIERS, MEMBERS OF SOCIETY
JIT FOCUS IS ON BALANCING JIT FOCUS IS ON BALANCING THE SYSTEM AND REDUCING THE SYSTEM AND REDUCING
OR ELIMINATING WASTESOR ELIMINATING WASTES
• 1. TRANSPORTATION
• 2.PRODUCT DEFECTS
• 3.OVER PRODUCTION
• 4. WAITING TIME
• 5.INEFFICIENT WORK METHODS
• 6. INVENTORY
• 7. UNNECESSARY MOVEMENT
INVENTORY IS NECESSARYINVENTORY IS NECESSARY
• TO AVOID STOCK OUT SITUATIONS – WHICH LEAD TO MACHINE DOWNTIME – WHICH CAN IMPACT PRODUCTIVITY
• LEAD TIMES AND UNCERTAINITY OF AVAILABILITY OF MATERIALS DEMAND BUFFER STOCKING
• HOW MUCH ? WILL DEPEND ON HISTORICAL DATA AND OTHER TECHNIQUES
CAUSES FOR BUILDING CAUSES FOR BUILDING INVENTORYINVENTORY
• 1. MEET CUSTOMERS NEED IN TIME- ELSE THE CUSTOMER IS LOST
• 2.FREQUENT REORDERING INCREASES COSTS – HIGHER QUANTITIES ATTRACT DISCOUNTS
• 3.TRANSPORTATION COSTS R LESS
• 4. LABOUR AND EQUIPMENT UTILISATION WILL BE HIGHER
OPTIMISATIONOPTIMISATION
• IS A PROCESS WHERE THE RESULTANT EFFECT OF ALL FACTORS ARE ANALYSED AND DECISIONS TAKEN
• STUDY AND REPEATED IMPLEMENTAITON BRINGS IN ORGN LEARNING AND IMPROVES DM
• ADDS TO THE PROFITABILITY OF THE COMPANY
WORK CENTRE LOCATIONWORK CENTRE LOCATION
• WORK CENTRE IS A PRODUCTION FACILTIY COMPRISING OF ONE OR MORE MACHINES OR ONE OR MORE WORKMEN CONSIDERED AS A SINGLE UNIT FOR PURPOSES OF ESTIMATION OF CAPACITY
• WORK CENTRES R ALSO CONSIDERED AS COST CENTRES
LOCATION IS IMP LOCATION IS IMP
• 1. TO MINIMISE THE MOVEMENT OF MATERIALS
• 2.MEET TECHNOLOGICAL SEQUENCES
• 3. REDUCE CONGESTION
• 4. MAXIMISE PRODUCTIVITY
• 5.AVOID REPETITIVE MOVEMENTS
• 6. IMPROVE PART TRACKING ABILITY
MATERIAL INFORMATIONMATERIAL INFORMATION
• 1. EACH WORK CENTER RECIVES INFO ALONG WITH MATERIAL THAT ENTERS AS WELL WHEN MATERIAL LEAVES WORK CENTER
• 2. ROUTE SHEET CONTAINS INFORMATION – MATERIAL, PROCESS,QUANTITIES, INSPECTION..
• 3. EVERY OP CONSISTS OF MAT TRANSFORMATION ON THE BASIS OF INFORMATION
PROXIMITY – AEIOUX - OF PROXIMITY – AEIOUX - OF WORK CENTERSWORK CENTERS
• A- ABSOLUTELY NECESSARY TO BE CLOSE• E- ESSENTIAL TO BE CLOSE• I-IMPORTANT THAT THEY ARE CLOSE• O-ORDINARY CLOSENESS• U-UNIMPORTANT THAT THEY ARE CLOSE
OR NOT• X-NOT DESIRABLE THAT THE CENTRES ARE
CLOSE
TOP MGT DECISIONSTOP MGT DECISIONS
• PLANNING THE FACILITIES FOR MFG ARE STRATEGIC DECISIONS
• MACHINE LAYOUT IS TO ENSURE MAXIMUM PRODUCTIVITY AND MINIMUM MOVEMENT OF MATERIALS INSIDE THE PLANT – DIFFERENT TYPES OF LAYOUT R NECESSARY DEPENDING ON THE VARIETY OF PRODUCTS AND THEIR VOLUMES
TQMTQM
• QUALITY IS VERY IMP. DIMENSION IN OPS MGT
• QUALITY IS A MARKETING STRATEGY FOR NOT ONLY SURVIVAL BUT FOR EXPANDING THE MARKETS
• QUALITY HELPS GAIN A COMPETITIVE EDGE• QUALITY IS THE FOUNDATION FOR
ACHIEVING CUSTOMERS SATISFACTION• BRANDS GET CREATED DUE TO QUALITY
DEFINITION OF QUALITYDEFINITION OF QUALITY
the totality of features and characteristics of a product or service that bears its ability to satisfy stated or implied needs
Manufacturing: Strict and consistent adherence to measurable and verifiable standards to achieve uniformity of output that satisfies specific customer or user requirements.
IMPROVING QUALITYIMPROVING QUALITY
• 1. PERFORMANCE AND SERVICE
• 2. IDENTIFY DEFECTS
• 3. EFFICIENCY
• 4. INNOVATION
• 5. CERTIFICATION BY COMPETENT AND NEUTRAL BODIES
• 6. CUSTOMERS PERCEPTION IS THE KEY TO QUALITY
DIMENSIONS OF QUALITYDIMENSIONS OF QUALITY
• 1. QUALITY OF DESIGN – SPECIFICATIONS OF DIFFERENT FEATURES LIKE MATERIAL, DIMENSIONS N CHARACTERISTICS
• 2. CONFORMANCE TO DESIGN
• 3.UTILISATION CONDITIONS
• 4. AFTER SALES SERVICE
SYSTEMS VIEW OF QUALITYSYSTEMS VIEW OF QUALITY
• SYSTEM CONSISTS OF A NUMBER OF ELEMENTS WHICH HAVE SPECIFIC FUNCTIONS OF THEIR OWN – GIVING AND RECEIVING SUPPORT FROM ONE ANOTHER TO DELIVER OUTPUTS
• STRUCTURE, ORGN, HIERARCHIES AND INTEGRATION FACILITATE THE SYSTEM TO BE EFFECTIVE
QUALITY CONTROLQUALITY CONTROL
• EXERCISED MAINLY BY 2 METHODS – DESIGN AND PROCESS
• DESIGN ENSURES THAT INFO FLOW, FEEDBACK AND MONITORING TAKES PLACE
• DESIGNING EQUIPMENTS, PROCESSES,MFG METHODS AND TECH TO ENSURE THAT QUALITY PARAMETERS ARE MET
PROCESSPROCESS
• VARIABILITY IS INHERENT AND MUST BE MONITORED TO ACCEPTABLE LEVELS
• ALL PROCESSES HAVE TOOLS, METHODOLOGIES, MOVEMENTS, FACILATING GOODS N PEOPLE
• PEOPLE HAVE DIFFERENT KNOWLEDGE, SKILLS LEVELS N EXPERIENCE
QUALITY CONTROL TOOLSQUALITY CONTROL TOOLS• 1. FLOW CHART
• 2. CHECK SHEET
• 3. HISTOGRAM
• 4. PARETO ANALYSIS
• 5. SCATTER DIAGRAMS
• 6. CONTROL CHARTS
• 7. CAUSE AND EFFECT DIAGRAMS
( FISH BONE DIAGRAM)
DIFFERENT APPROACHES TO DIFFERENT APPROACHES TO TQMTQM
• DEMING WHEEL
• JURANS – UNIVERSAL BREAHTHROUGH SEQUENCE
• CROSBY’S ABSOLUTES OF QUALITY
DEMINGDEMING• W. Edwards Deming in the 1950's
proposed that business processes should be analyzed and measured to identify sources of variations that cause products to deviate from customer requirements. He recommended that business processes be placed in a continuous feedback loop so that managers can identify and change the parts of the process that need improvements
PDCA WHEELPDCA WHEEL
JURAN – QUALITY GURUJURAN – QUALITY GURU
Joseph Moses Juran (December 24, 1904 – February 28, 2008)
was a 20th century management consultant who is principally remembered as an evangelist for quality and quality management, writing several influential books on those subjects
QUALITY TRILOGY – 50 YRS OF QUALITY TRILOGY – 50 YRS OF RESEARCH RESEARCH
• Quality Planning
• Identify who are the customers.
• Determine the needs of those customers.
• Translate those needs into our language.
• Develop a product that can respond to those needs.
• Optimize the product features so as to meet our needs and customer needs.
QUALITY IMPROVEMENT AND QUALITY IMPROVEMENT AND CONTROL CONTROL
• Quality Improvement
• Develop a process which is able to produce the product.
• Optimize the process.
• Quality Control
• Prove that the process can produce the product under operating conditions with minimal inspection.
• Transfer the process to Operations
CUSTOMER PERSPECTIVECUSTOMER PERSPECTIVE
• Juran describes quality from the customer perspective as having two aspects:
• higher quality means a greater number of features that meet customers' needs.
• The second aspect relates to "freedom from trouble": higher quality consists of fewer defects
JURAN INSTITUTE -1979JURAN INSTITUTE -1979
• Dr. Juran wrote that the purpose of the Institute is to improve the quality of society. He said, “Whatever you do make sure it improves society. Don’t just do it for the sake of profit.” A true leader is not just there to lead a company. They must have a purpose. I hope to continue to build upon the foundation of true leadership which Dr. Juran embodied.
• Joseph A. De FeoPresident & Executive Coach
• http://www.juran.com
SEE THE HUMILITY OF THE SEE THE HUMILITY OF THE FATHER OF QUALITYFATHER OF QUALITY
• Juran has contributed more to the field and over a longer period of time than any other person, and yet, felt he had barely scratched the surface of his subject.
• "My job of contributing to the welfare of my fellow man," wrote Juran, "is the great unfinished business."
CROSBYCROSBY• Philip Crosby is an American who promoted the
phrases “zero defects” and “right first time”. “Zero defects” doesn’t mean mistakes never happen, rather that there is no allowable number of errors built into a product or process and that you get it right first time.
• Philip Crosby believes management should take prime responsibility for quality, and workers only follow their managers’ example
4 ABSOLUTES OF QUALITY 4 ABSOLUTES OF QUALITY
• Quality is conformance to requirements
• Quality prevention is preferable to quality inspection
• Zero defects is the quality performance standard
• Quality is measured in monetary terms – the price of non-conformance
CROSBY GAVE 14 POINTSCROSBY GAVE 14 POINTS
• INGREDIENTS ARE:
• 1. INTEGRITY – HONESTY N COMMITMENT HELP PRODUCING EVERYTHING RIGHT FIRST TIME, EVERY TIME
• 2. COMMUNICATION
• 3. SYSTEMS N OPS
• 4. TRAINING N QUALITY IMP TEAMS
ISOISO• ISO (International Organization for Standardization)
is the world's largest developer and publisher of International Standards.
• ISO is a network of the national standards institutes of 163 countries, one member per country, with a Central Secretariat in Geneva, Switzerland, that coordinates the system.
• ISO is a NGO that forms a bridge between the public and private sectors.
• Therefore, ISO enables a consensus to be reached on solutions that meet both the requirements of business and the broader needs of society.
Why ISO?Why ISO?
• Because "International Organization for Standardization" would have different acronyms in different languages ("IOS" in English, "OIN" in French for Organization internationale de normalisation), its founders decided to give it also a short, all-purpose name
• "ISO", derived from the Greek isos, meaning "equal". Whatever the country, whatever the language, the short form of the organization's name is always ISO.
INTERNATIONAL STANDARDSINTERNATIONAL STANDARDS The economic stakeholders concerned agree on
specifications and criteria to be applied consistently in the classification of materials, in the manufacture and supply of products, in testing and analysis, in terminology and in the provision of services.
Provide a reference framework, or a common technological language, between suppliers and their customers. This facilitates trade and the transfer of technology.
OBJECTIVES OF ISOOBJECTIVES OF ISO
• 1. MAINTAIN PRODUCT QUALITY IN RELATIONSHIP TO REQUIREMENTS AND TO REINFORCE N IMPROVE
• 2. GIVE CONFIDENCE TO ALL STAKE HOLDERS THAT THE ORGN IS RUN ON QUALITY LINES
• 3. INSTIL A SENSE OF PRIDE TO MOTIVATE EMPLOYEES
ISO 9000 FAMILYISO 9000 FAMILY
• The ISO 9000 family of standards represents an international consensus on good quality management practices. It consists of standards and guidelines relating to quality management systems and related supporting standards
• Designed to help organizations ensure they meet the needs of customers and all stakeholders
KEY ELEMENTS OF ISO 9000KEY ELEMENTS OF ISO 9000
• 1. DOCUMENTATION FOR ALL ACTIVITES
• 2. SELF AUDIT AND CUSTOMER AUDIT
• 3. CONTINUAL IMPROVEMENT
• 4. TRAINING, AWARENESS N COMMUNICATION
• 5. CERFICIATION BY ACCREDITED AGENCIES
BUSINESS PROCESS BUSINESS PROCESS MODELLING -BPMMODELLING -BPM
A TOTAL RESPONSE THAT A BUSINESS UNDERTAKES UTLISING THE RESOURCES AND DELIVERING THE OUTPUTS THAT CREATE VALUE FOR THE CUSTOMER
REASONS FOR BPMREASONS FOR BPM
• 1. IMPROVE THE PERFORMANCE OF THE PROCESS
• 2. DELIVER BETTER VALUE
• 3. MAXIMISE THE EARNINGS
• 4. TO GAIN A COMPETITIVE EDGE
LOGICAL PROCESS MODELLINGLOGICAL PROCESS MODELLING
IT IS THE REP OF PUTTING TOGETHER ALL THE ACTIVIES OF THE PROCESS IN DETAIL AND MAKING AREP OF THEM
• 1. PROCESS DESCRIPTIONS
• 2. FLOW CHARTS
• 3. FLOW DIAGRAMS
• FUNCTIONHIERARCHIES
• FUNCTION DEPENDENCY DIAGRAMS
PHYSICAL PROCESS PHYSICAL PROCESS MODELLING - PPMMODELLING - PPM
• PPM IS CONCERNED WITH THE ACTUAL DESIGN OF DATA BASE MEETING THE REQUIREMENTS OF BUSINESS
• CONVERSION OF THE LOGICAL MODEL INTO A RELATIONAL MODEL
• ALL THE INFO IS PUT TOGETHER TO MAKE THE DATABASE SOFTWARE SPECIFIC- SHOWING TABLES N RELATIONSHIPS WITH A DATABASE
SUCCESS OF A BUSINESS SUCCESS OF A BUSINESS PROCESSPROCESS
• RESOURCES ARE OPTIMALLY UTILISED
• ACTIVITIES ARE EFFECTIVELY CONDUCTED
• OUTCOMES R CLOSE TO EXPECTATIONS
PROJECT MANAGEMENT - PMPROJECT MANAGEMENT - PM
• PM IS THE COMPLETE SET OF TASKS, TECHNIQUES, AND TOOLS APPLIED DURING PROJECT EXECUTION
• PM IS THE APPLN OF KNOWLEDGE, SKILLS, TOOLS AND TECHNIQUES TO PROJECT ACTIVITIES TO MEET PROJECT REQUIREMENTS
PROJECTPROJECT
• A PROJECT IS A TEMPORARY ENDEAVOUR WITH A FINITE COMPLETION DATE UNDERTAKEN TO CREATE A UNIQUE PRODUCT OR SERVICE.
• PROJECTS BRING FORM AND FUNCTION TO IDEAS OR NEEDS
MANAGEMENTMANAGEMENT
MGT IS THE TECHNIQUE OF UNDERSTANDING THE PROBLEMS, NEEDS, AND CONTROLLING THE USE OF RESOURCES SUCH AS COST, TIME, MANPOWER AND MATERIALS
PROJECT FEATURESPROJECT FEATURES• 1. START AND AN END DATE
• 2. SCOPE OF WORK WELL DEFINED
• 3.MULTI-DISCIPLANARY TEAM WORK
• 4. CONSTRAINED BY COST, TIME AND QUALITY
• 5. A SPONSOR WHO HAS ADEQUATE AUTHORITY AND RESOURCES
STAKEHOLDERS IN PMSTAKEHOLDERS IN PM
• 1. CUSTOMER
• 2. PERFORMING ORGN
• 3. PROJECT MANAGER
• 4. SPONSOR
INGREDIENTS OF A GOOD INGREDIENTS OF A GOOD PROJECTPROJECT
• 1. DEFINE THE PROJECT• 2.SET MANAGEABLE TASKS• 3. OBTAIN RESOURCES• 4. BUILD A TEAM• 5. PLAN N ALLOCATE THE TASK• 6. MONITOR N CONTROL• 7. REPORT TO TOP MGT• 8. CLOSE WHEN COMPLETE• 9. REVIEW THE PROJECT
PM IS NECESSARYPM IS NECESSARY
• 1. HUGE CAPITAL OUTLAY• 2. LOSS CAN CAUSE HUGE NEGATIVE
IMPACT• 3. FAILURES MAY OCCUR DURING THE
PROCESS• 4. SCOPE MAY CHANGE• 5. TECHNOLOGY USED MAY CHANGE• 6. CHANGES IN ECONOMIC CONDITIONS
CAN AFFECT A PROJECT….
DIMENSIONS OF PMDIMENSIONS OF PM
• 1. FEATURES
• 2.COST
• 3. QUALITY
• 4.SCHEDULE – TIME DIMENSION
• 5. STAFF
EACH OF 5 DIMENSIONS CAN EACH OF 5 DIMENSIONS CAN TAKE ONE OF THREE ROLESTAKE ONE OF THREE ROLES
• 1. DRIVE – A DRIVER IS A KEY OBJECTIVE OF THE PROJECT – IT HAS LOW FLEXIBILITY TOWARDS THE PROJECT TEAM
• 2. CONSTRAINT – LIMITING FACTOR GIVING VIRTUALLY NO FLEXIBILITY
• 3. DOF – DEGREE OF FREEDOM – THIS PROVIDES WIDER LATITUDE FOR BALANCING THAT DIMENSION AGAINST THE OTHER FOUR
KIVIAT DIAGRAMKIVIAT DIAGRAM
• IT IS A USEFUL TOOL IN PM TO COMPARE THE RELATIVE FLEXIBILITY OF THE PARAMETERS CONSIDERED
EXAMPLE OF KIVIAT DIAGRAMEXAMPLE OF KIVIAT DIAGRAM
WBS WBS • Work Breakdown Structure (WBS) makes
complex projects more manageable. It is designed to help break down a project into manageable chunks that can be effectively estimated and supervised. Reasons for creating a WBS include:
• Assists with accurate project organization • Helps with assigning responsibilities • Shows the control points and project milestones • Allows for more accurate estimation of cost, risk
and time • Helps explain the project scope to stakeholders
PM KNOWLEDGE AREAS PM KNOWLEDGE AREAS
PROJECT PROCESS PROJECT PROCESS
PROCESS GROUPS N PROCESS GROUPS N CUSTOMISATIONCUSTOMISATION
• 1. INITIATING PROCESSES
• 2. PLANNING PROCESSES
• 3. EXECUTING PROCESSES
• 4. CONTROLLING PROCESSES
• 5. CLOSING PROCESSES
• 6. PROCESS INTERACTIONS
• 7. CUSTOMISATION
PROJECT MIND SETPROJECT MIND SET
• 1. TIME
• 2.RESPONSIVENESS
• 3.INFORMATION SHARING
• 4.PROCESSES
• 5. STRUCTURED PLANNING
SELECTION CRITERIA IN SELECTION CRITERIA IN PROJECT EVALUATIONPROJECT EVALUATION
• 1. RELEVANCE TO DEFINED SCOPE• 2. RELEVANCE TO MARKET OPPOR..• 3. STATE OF ART TECH MEHODOLOGIES• 4.PROJECT WORK PLAN• 5. PROJECT MANAGEMENT• 6. EFFORT JUSTIFICATION• 7. POTENTIAL IDENTIFIED• 8. CREATIVITY
PM LIFE CYCLEPM LIFE CYCLE
PROJECT LIFE CYCLEPROJECT LIFE CYCLE
PHASES OF PM LIFE CYCLEPHASES OF PM LIFE CYCLE
• 1. ANALYSIS N EVALUATION
• 2. MARKETING
• 3. DESIGN
• 4. EXECUTION
• 5. CONTROL – INSPECTING, TESTING AND DELIVERY
• 6. CLOSURE AND POST COMPLETION ANALYSIS
PROJECT DEVELOPMENT PROJECT DEVELOPMENT PROCESS CYCLE - QUALITY PROCESS CYCLE - QUALITY
CONTROLCONTROL• 1. PLANNING FOR REVIEW• 2.CONDUCTING THE REVIEW• 3.TAKING ACTIONS ON FINDINGS• 4. DO CONTINUOUS IMPROVEMENT• 5. IDENTIFYING CRITICAL SUCCESS
FACTORS – THESE FACTORS MAY SLACKEN THE PROJECT IF NOT FOCUSED
PERT ( DEV IN 50S) PERT ( DEV IN 50S) • PERT IS A PM TOOL – USED TO
SCHEDULE, ORGANISE, AND COORDINATE TASKS WITHIN A PROJECT
• USING PERT CHART, THE COLLECTION OF SERIES AND PARALLEL TASKS PERFORMED IN COMPLEX PROJECTS CAN BE REPRESENTED IN A NETWORK DIAGRAM.
• IT REPRESENTS THE ACTIVITIES AND MILESTONES OF THE PROJECT
STEPS IN PERT CHARTSTEPS IN PERT CHART• 1. DEFINE START AND END DATES• 2. IDENTIFY THE SPECIFIC ACTIVITIES• 3. CONSTRUCT A NETWORK DIAGRAM• 4. ESTMITATE TIME FOR EACH ACTIVITY • – O – P –MOST LIKELY• Expected time = (Optimistic time + 4 X Most
likely time + Pessimistic time) / 6.• 5. DETERMINE THE CRITICAL PATH• 6. UPDATE THE PERT CHART AS THE
PROJECT PROCESSES
PERT CHART - EXAMPLEPERT CHART - EXAMPLE
CHANGE CONTROLCHANGE CONTROL
• UNCERTAINITIES ARE PART OF THE PROJECT
• NECESSARY TO BE FLEXIBLE• CONTTOLLING IS POSSIBLE THROUGH
A PROPER CHANGE MANAGEMENT PROCESS
• THESE FACTORS MAY AFFECT THE PROGRESS OF THE PROJECT, COST N SCOPE OF THE PROJECT
CHANGING PROJECT MGT CHANGING PROJECT MGT PROCESSPROCESS
• 1. REQUEST FOR CHANGE
• 2.IDENTIFY ALTERNATIVE SOLUTIONS
• 3. DECIDE ON THE ACTIONS FOR THE CHANGE
• 4. IMPLEMENT CHANGE
RISK MANAGEMENTRISK MANAGEMENT
• RISKS ARE THOSE EVENTS OR CONDITIONS THAT MAY OCCUR AND WHOSE OCCURRENCE HAS A HARMFUL OR NEGATIVE IMPACT ON THE PROJECT
• RISK MANAGEMENT AIMS TO IDENTIFY THE RISKS AND THEN TAKE ACTIONS TO MINIMISE THEIR AFFECT ON THE PROJECT
COMPONENTS OF RISK MGTCOMPONENTS OF RISK MGT
• 1. RISK ASSESSMENT• 2. RISK PRIORITISING – BASED ON
PROBABILITY AND EFFECTS ON THE PROJECT
• 3. RISK CONTROL• 4. RISK MITIGATION – MONITOR THE
PLANNED STEPS, PERIODICALLY REVISIT THE RISK PERCEPTION AND MAKE FRESH RISK ANALYSIS
MODERN TRENDS IN PMMODERN TRENDS IN PM
• PMIS – PM INFORMATION SYSTEM
• 1. PROVIDING INFO TO STAKEHOLDERS
• 2. ASSISTING TEAM MEMBERS N OTHERS TOWARDS DM
• 3.ASSISTANCE IN ‘WHAT IF ANALYSIS’ – STAFFING, RESOURCES ETC
• 4. HELPING ORGN LEARNING ABOUT PM
MODERN TOOLS IN PMMODERN TOOLS IN PM
• 1. CONTINUOUS BUSINESS PROCESS IMPROVEMENT
• 2. FORCE FIELD ANALYSIS
• 3. INFORMATION RISK MGT
• 4. MGT ASSURANCE MEASURE
• 5. ISO CERTIFICATION
• 6. STRATEGIC INFLECTION POINT
FORCE FIELD ANALYSISFORCE FIELD ANALYSIS• The force field diagram is derived from the work
of Lewin’s theories, human behavior is caused by forces – beliefs, expectations, cultural norms, and the like – within the "life space" of an individual or society. These forces can be positive, urging us toward a behavior, or negative, propelling us away from a behavior. A force field diagram portrays these driving forces and restraining forces that affect a central question or problem. A force field diagram can be used to compare any kind of opposites, actions and consequences, different points of view, and so on.
DMAIS CYCLEDMAIS CYCLE
NEW HORIZONS IN PMNEW HORIZONS IN PM
SCM – ONE OF THE DEFINITIONS SCM – ONE OF THE DEFINITIONS • Supply chain management encompasses the
planning and management of all activities involved in sourcing and procurement, conversion, and all logistics management activities.
• Importantly, it also includes coordination and collaboration with channel partners, which can be suppliers, intermediaries, third party service providers, and customers.
• In essence, supply chain management integrates supply and demand management within and across companies.
• http://cscmp.org
ISCMISCM
• INTEGRATED SCM MEANS THE PROCESS TO INTEGRATE AND MANAGE THE SCM AS ONE ENTITY
• INCLUDES SUPPLIERS, PRODUCTION,DISTRIBUTION, SERVICES AND CUSTOMERS
A SNAP SHOT OF SCMA SNAP SHOT OF SCM
ELEMENTS OF SUPPLY CHAINELEMENTS OF SUPPLY CHAIN
• LOCATION
• PRODUCTION
• INVENTORY
• TRANSPORTATION
• MANAGING THE CHAIN – INCLUDING PRODUCT FLOW, INFORMATION FLOW AND FINANCIAL FLOW….
PRINCIPLES OF SCMPRINCIPLES OF SCM
• 1. GROUP CUSTOMER BY NEEDS
• 2.CUSTOMISE THE LGS NETWORK
• 3.LISTEN TO SIGNALS OF MKT DYNAMICS
• 4.DIFFERENTIATE THE PRODUCT CLOSER TO THE CUSTOMER DEMAND
PRINCIPLES (CONTD)PRINCIPLES (CONTD)
• 5. STRATEGICALLY MANAGE THE SOURCES OF SUPPLY
• 6. DEVELOP A SUPPLY CHAIN WIDE TECNOLOGY STRATEGY
• 7. ADOPT CHANNEL SPANNING PERFORMANCE MEASURES – APPLY PERFORMANCE CRITERIA THAT EMBRACE BOTH SERVICE AND FINANCIAL METRICS
BULLWHIP EFFECTBULLWHIP EFFECT
• The Bullwhip Effect is a deformation in information when it goes upstream in the supply chain. More precisely, the demand of the customer is put out of shape each time it goes from a company to another
IMPACT OF BULLWHIP EFFECTIMPACT OF BULLWHIP EFFECT
CAUSES OF BULLWHIP EFFECTCAUSES OF BULLWHIP EFFECT
• 1. SOURCES OF VARIABILITY – DEMAND, QUALITY PROBLEMS,STRIKE,FIRE ETC
• 2. COMMUNICATION, CO-ORD ISSUES
• 3. DEMAND FORECAST INACCURACIES
• 4. SHORTAGE GAMING
• 5. ORDER BATCHING
• 6. FREE RETURN POLICIES….
COLABORATIVE SUPPLY CHAINCOLABORATIVE SUPPLY CHAIN
• UPSTREAM SUPPLY CHAIN ( INBOUND LOGISTICS)
• INTERNAL SUPPLY CHAIN ( IN HOUSE PROCESSES)
• DOWNSTREAM SUPPLY CHAIN
• ( OUTBOUND LOGISTICS)
FINANCIAL SUPPLY CHAIN – FINANCIAL SUPPLY CHAIN – NEW REVOLUTION IN SCM FOLDNEW REVOLUTION IN SCM FOLD
• 1. FISCAL DISCIPLINE AND CONTROL
• 2. INTEGRATED NETWORKING OF INFORMATION
• 3. MULTI-DIMENSIONAL FINANCIAL MGT COCKPIT
• 4. CONTROL OF INVENTORY AND IDLING OF ASSETS
ERGONOMICSERGONOMICS
• A DISCIPLINE OF EQUIPMENT DESIGN, FOR A WORKPLACE, IN ORDER TO MAXIMISE PRODUCTIVITY AND REDUCE THE STRESS AND DISCOMFORT OF THE OPERATOR.
• SOURCE GREEK – ERGON IS WORK N NOMOS MEANS LAWS = LAWS OF WORK
J I T J I T
• Just-in-time (JIT) manufacturing is a process by which companies don't keep lots of excess inventory; instead, they manufacture a product as an order comes in.
• Companies that employ it effectively can decrease their inventories and increase overall efficiencies. Decreasing inventory allows companies to decrease waste, which saves lots of money; however, this often comes at the cost of slower completion times to fill orders.
ADVANTAGES OF J I TADVANTAGES OF J I T
• 1. ENHANCED PRODUCTIVITY
• 2. REDUCES OPERATING COSTS
• 3. IMPROVES QUALITY
• 4. IMPROVES DELIVERABLES
• 5. INCREASES FLEXIBILITY AND INNOVATIVENESS
CHARACTERISTICS OF J I TCHARACTERISTICS OF J I T
• WASTES TO BE ELIMINATED• 1. OVER PRODUCTION• 2. INVENTORY• 3. TIME• 4. MOVEMENT• 5. EFFORT• 6.EFECTIVE PRODUCTS• 7. OVER PROCESSING
KEY PROCESSES TO ELIMINATE KEY PROCESSES TO ELIMINATE WASTEWASTE
• 1. KANBAN FOR MATERIAL FLOW
• 2. HIGH QUALITY PRODUCTION
• 3. SMALL AND UNIFORM WORKLOADS
• 4. SUPPLIERS AS PARTNERS
• 5. FLEXIBLE WORKFORCE AND TRAINING
• 6. TOTAL PRODUCTIVE MAINTENANCE
KANBANKANBAN• It is a specific type of inventory control
system - based upon a series of colored cards. These cards denote such factors as quantity, the type of part and the manufacturer.
• A card is placed in the bin or other container with each group of manufactured items as an identifier for those involved with the next phase of production or distribution.
CHALLENGES FOR J I TCHALLENGES FOR J I T
• ACCURATE ASSESSMENT OF :-• 1. FORECASTS OF THE MKT DEMAND• 2.CAPACITIES OF THE EQUIPMENTS• 3. WORKER ABSENTEEISM• 4. SUPPLIERS LEAD TIMES• 5. QUALITY OF THE PRODUCED
COMPONENTS• OTHER FACTORS INCLUDING AVOIDING
BOTTLENECKS, INFORMATION FLOW…
VALUE ENGGVALUE ENGG
• VALUE ENGG OR VALUE ANALYSIS IS A METHODOLOGY BY WHICH WE TRY TO FIND SUBSTITUES FOR A PRODUCT OR AN OPERATION
• ALTERNATIVES ARE FOUND FOR INCREASING THE FUNCTIONALITY OR REDUCING THE COST IN TERMS OF MATERIAL, PROCESS AND TIME
PROCESS OF VAPROCESS OF VA
• 1. DATA GATHERING
• 2. ANALYSIS AND VALUATION OF FUNCTIONS
• 3. IDEA GENERATION AND EVALUATION OF SUBSTITUTES
• 4. IMPLEMENTATION AND REGULATION
AIMS OF V ENGGAIMS OF V ENGG
• 1. PRODUCT SIMPLIFICATION
• 2. BETTER AND LESS COSTLY MATERIALS
• 3. IMPROVED PRODUCT DESIGN
• 4. HIGH EFFICIENCY IN PROCESSES
• 5. ECONOMY IN ALL ACTIVITIES
DIFFERENT ASPECTS OF VEDIFFERENT ASPECTS OF VE
• 1. PROBLEM/SITUATION NEEDING CHANGE• 2. ALL THAT IS GOOD – NOW• 3. IMPROVMENTS REQUIRED• 4. FUNCTIONS TO BE PERFORMED• 5. WAYS OF PERFORMING EACH FUNCTION• 6. BEST WAYS AMONG THE SELECTED• 7. STEPS TO BE FOLLOWED TO IMPLEMENT• 8. PERSON WHO EXECUTES THE FUNCTION
MAIN BENEFITS OF VEMAIN BENEFITS OF VE
• 1. COST REDUCTION• 2. OVERALL COST CONSCIOUSNESS• 3. CULTURE OF EFFECTING SAVINGS• 4. STREAMLINING OF SYSTEMS• 5. CREATING TRANSPARENCY• 6. DEVELOPMENT OF RELIABLE
SUPPLIERS• 7. OVERALL ENHANCING VALUE
WHEN TO IMPLEMENT VAWHEN TO IMPLEMENT VA• PRODUCT DESIGN N DEVELOPMENT
STAGE• WILL HELP ANALYSE ENGG
DRAWINGS OF PROJECTED PRODUCTS
• HELP ACHIEVE EFFICIENT, EFFECTIVE AND RELIABLE DESIGNS, REDUCES THE COST, AVOID UNWANTED OPS AND IMPROVES QUALITY AT INITIAL STAGE ITSELF
QUANTITATIVE MODELSQUANTITATIVE MODELS
• SOLVING PROBLEMS THROUGH THE QUANTITATIVE APPROACH:-
• 1. DEFINE THE PROBLEM
• 2. CONSTRUCT A MATHEMATICAL MODEL
• 3. TEST THE MODEL AND ITS SOLUTION
TYPES OF MODELSTYPES OF MODELS
• 1. LINEAR PROGRAMMING
• 2. TRANSPORTATION MODEL
• 3. ASSIGNMENT MODEL
• 4. INVENTORY CONTROL MODEL
• 5. WAITING LINE MODEL
• 6. SIMULATION MODEL
• 7. PERT AND CPM