Modules / Lectures
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noc21_mg92_assignment_Week_0noc21_mg92_assignment_Week_0
noc21_mg92_assignment_Week_1noc21_mg92_assignment_Week_1
noc21_mg92_assignment_Week_2noc21_mg92_assignment_Week_2
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noc21_mg92_assignment_Week_9noc21_mg92_assignment_Week_9
noc21_mg92assignment_Week12noc21_mg92assignment_Week12


Sl.No Chapter Name MP4 Download
1Lecture 01: Basic Concepts of Manufacturing Systems, Evolution of Manufacturing SystemsDownload
2Lecture 02: Types of Manufacturing Systems and Role of AutomationDownload
3Lecture 03: Product-Process-Flexibility Matrices, Four-Plane Concept of ManufacturingDownload
4Lecture 04: Product Design and Manufacturing SystemsDownload
5Lecture 05: Definitions and Design Criteria for Production SystemsDownload
6Lecture 06 Manufacturing System Components-IDownload
7Lecture 07 Manufacturing System Components-IIDownload
8Lecture 08 Industry 4.0Download
9Lecture 09 Automation Principles and Strategies for Process ImprovementDownload
10Lecture 10 Automated Production System FrameworkDownload
11Lecture 11: Product Development Process: Approaches and stagesDownload
12Lecture 12 : Mathematical Models for Interaction between Design and ManufacturingDownload
13Lecture 13 : Sequential and Concurrent Engineering Approaches for Product DevelopmentDownload
14Lecture 14 : Characterization of Concurrent Engineering FrameworkDownload
15Lecture 15 : Concurrent Engineering TechniquesDownload
16Lecture 16: Introduction to Concept and Application of Numerical Control (NC) TechnologyDownload
17Lecture 17: Basic Concepts of an NC SystemDownload
18Lecture 18 : NC Coordinate System, NC Motion Control SystemDownload
19Lecture 19 : Features of CNC, Configuration of CNC Machine Control SystemDownload
20Lecture 20 : Numerical ExamplesDownload
21Lecture 21: Distributed Numerical Control (DNC) and its ConfigurationDownload
22Lecture 22: NC Part Programming-I (Manual, Computer-assisted)Download
23Lecture 23 : NC Part Programming-II (CAD/CAM, MDI)Download
24Lecture 24:Download
25Lecture 25 : Numerical ExamplesDownload
26Lecture 26 : Group Technology (GT): Concept and DefinitionDownload
27Lecture 27: Methods and Implementation of GT for AutomationDownload
28Lecture 28 : Part Family Formation: Tools and TechniquesDownload
29Lecture 29: Numerical Examples on Part Family FormationDownload
30Lecture 30: Application of GT for Designing Flexible and Programmable AutomationDownload
31Lecture 31 : Concept and Definition of Cellular Manufacturing System (CMS)Download
32Lecture 32 :Download
33Lecture 33 : Cell Formation Approaches-IIDownload
34Lecture 34 : Evaluation of Cell Design, Numerical ExamplesDownload
35Lecture 35 : Production Planning and Control in CMS, Assessment of Solution by Heuristics.....Download
36Lecture 36 : Types and Definitions of of Flexibility in Manufacturing SystemsDownload
37Lecture 37: Volume-Variety Relationships in Production Systems, What is FMS?Download
38Lecture 38: Basic Features of FMS: PhysicalSsubsystemsDownload
39Lecture 39: Basic Features of FMS: Control Subsystems and Manufacturing Control Activities.Download
40Lecture 40: Types of Problems in FMSDownload
41Lecture 41 : Operational Problems in FMS: Tools and Techniques – 1, Problem FormulationDownload
42Lecture 42 : Operational Problems in FMS: Tools and Techniques – 2, Numerical ExamplesDownload
43Lecture 43 : Tool Allocation Policies in FMS, Numerical ExamplesDownload
44Lecture 44 : Fixture and Pallet Selection Problems: Numerical ExamplesDownload
45Lecture 45 : Types of FMS Layout, Relative AdvantagesDownload
46Lecture 46 : Fundamentals of Robotics and its ApplicationsDownload
47Lecture 47 : Robot Movement and PrecisionDownload
48Lecture 48 : Robot Motion Analysis, Robotic Joints and LinksDownload
49Lecture 49 : Robot Classification System, Industrial Robot ApplicationsDownload
50Lecture 50 : Numerical ExamplesDownload
51Lecture 51 : Definition of Process Planning: Function of Process PlanDownload
52Lecture 52 : Basic Steps in Process Plan DevelopmentDownload
53Lecture 53 : Process Planning Approaches: Manual Experience- based Process PlanningDownload
54Lecture 54 : Process Planning Approaches: Computer-aided Process PlanningDownload
55Lecture 55 : CIN and CAPP, Process Optimization and CAPPDownload
56Lecture 56 : Process Optimization and CAPPDownload
57Lecture 57 : FMS and CAPPDownload
58Lecture 58 : Process Optimization and CAPP: Numerical ExamplesDownload
59Lecture 59 : Process Planning and Concurrent EngineeringDownload
60Lecture 60 : Autonomation (and other TPS Areas and Approaches)Download

Sl.No Chapter Name English
1Lecture 01: Basic Concepts of Manufacturing Systems, Evolution of Manufacturing SystemsPDF unavailable
2Lecture 02: Types of Manufacturing Systems and Role of AutomationPDF unavailable
3Lecture 03: Product-Process-Flexibility Matrices, Four-Plane Concept of ManufacturingPDF unavailable
4Lecture 04: Product Design and Manufacturing SystemsPDF unavailable
5Lecture 05: Definitions and Design Criteria for Production SystemsPDF unavailable
6Lecture 06 Manufacturing System Components-IPDF unavailable
7Lecture 07 Manufacturing System Components-IIPDF unavailable
8Lecture 08 Industry 4.0PDF unavailable
9Lecture 09 Automation Principles and Strategies for Process ImprovementPDF unavailable
10Lecture 10 Automated Production System FrameworkPDF unavailable
11Lecture 11: Product Development Process: Approaches and stagesPDF unavailable
12Lecture 12 : Mathematical Models for Interaction between Design and ManufacturingPDF unavailable
13Lecture 13 : Sequential and Concurrent Engineering Approaches for Product DevelopmentPDF unavailable
14Lecture 14 : Characterization of Concurrent Engineering FrameworkPDF unavailable
15Lecture 15 : Concurrent Engineering TechniquesPDF unavailable
16Lecture 16: Introduction to Concept and Application of Numerical Control (NC) TechnologyPDF unavailable
17Lecture 17: Basic Concepts of an NC SystemPDF unavailable
18Lecture 18 : NC Coordinate System, NC Motion Control SystemPDF unavailable
19Lecture 19 : Features of CNC, Configuration of CNC Machine Control SystemPDF unavailable
20Lecture 20 : Numerical ExamplesPDF unavailable
21Lecture 21: Distributed Numerical Control (DNC) and its ConfigurationPDF unavailable
22Lecture 22: NC Part Programming-I (Manual, Computer-assisted)PDF unavailable
23Lecture 23 : NC Part Programming-II (CAD/CAM, MDI)PDF unavailable
24Lecture 24:PDF unavailable
25Lecture 25 : Numerical ExamplesPDF unavailable
26Lecture 26 : Group Technology (GT): Concept and DefinitionPDF unavailable
27Lecture 27: Methods and Implementation of GT for AutomationPDF unavailable
28Lecture 28 : Part Family Formation: Tools and TechniquesPDF unavailable
29Lecture 29: Numerical Examples on Part Family FormationPDF unavailable
30Lecture 30: Application of GT for Designing Flexible and Programmable AutomationPDF unavailable
31Lecture 31 : Concept and Definition of Cellular Manufacturing System (CMS)PDF unavailable
32Lecture 32 :PDF unavailable
33Lecture 33 : Cell Formation Approaches-IIPDF unavailable
34Lecture 34 : Evaluation of Cell Design, Numerical ExamplesPDF unavailable
35Lecture 35 : Production Planning and Control in CMS, Assessment of Solution by Heuristics.....PDF unavailable
36Lecture 36 : Types and Definitions of of Flexibility in Manufacturing SystemsPDF unavailable
37Lecture 37: Volume-Variety Relationships in Production Systems, What is FMS?PDF unavailable
38Lecture 38: Basic Features of FMS: PhysicalSsubsystemsPDF unavailable
39Lecture 39: Basic Features of FMS: Control Subsystems and Manufacturing Control Activities.PDF unavailable
40Lecture 40: Types of Problems in FMSPDF unavailable
41Lecture 41 : Operational Problems in FMS: Tools and Techniques – 1, Problem FormulationPDF unavailable
42Lecture 42 : Operational Problems in FMS: Tools and Techniques – 2, Numerical ExamplesPDF unavailable
43Lecture 43 : Tool Allocation Policies in FMS, Numerical ExamplesPDF unavailable
44Lecture 44 : Fixture and Pallet Selection Problems: Numerical ExamplesPDF unavailable
45Lecture 45 : Types of FMS Layout, Relative AdvantagesPDF unavailable
46Lecture 46 : Fundamentals of Robotics and its ApplicationsPDF unavailable
47Lecture 47 : Robot Movement and PrecisionPDF unavailable
48Lecture 48 : Robot Motion Analysis, Robotic Joints and LinksPDF unavailable
49Lecture 49 : Robot Classification System, Industrial Robot ApplicationsPDF unavailable
50Lecture 50 : Numerical ExamplesPDF unavailable
51Lecture 51 : Definition of Process Planning: Function of Process PlanPDF unavailable
52Lecture 52 : Basic Steps in Process Plan DevelopmentPDF unavailable
53Lecture 53 : Process Planning Approaches: Manual Experience- based Process PlanningPDF unavailable
54Lecture 54 : Process Planning Approaches: Computer-aided Process PlanningPDF unavailable
55Lecture 55 : CIN and CAPP, Process Optimization and CAPPPDF unavailable
56Lecture 56 : Process Optimization and CAPPPDF unavailable
57Lecture 57 : FMS and CAPPPDF unavailable
58Lecture 58 : Process Optimization and CAPP: Numerical ExamplesPDF unavailable
59Lecture 59 : Process Planning and Concurrent EngineeringPDF unavailable
60Lecture 60 : Autonomation (and other TPS Areas and Approaches)PDF unavailable


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1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available