Verfügbarkeit: Manufacturing systems analysis with application to production scheduling

Manufacturing systems analysis with application to production scheduling:

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Bibliographische Detailangaben
1. Verfasser:	Baudin, Michel (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Englewood Cliffs, NJ Yourdon Press 1990
Ausgabe:	1. print.
Schriftenreihe:	Yourdon Press computing series
Schlagworte:	Datenverarbeitung Production planning > Data processing Production scheduling > Data processing System analysis > Data processing Fertigungssystem Systemanalyse Produktionsplanung Planung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 360 S. graph. Darst.
ISBN:	0135563828

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE XV Part One â€” MANUFACTURING SYSTEMS ANALYSIS 1 Chapter 1 â€” COMPUTERS IN MANUFACTURING 1 1.1. THE STAKES IN MANUFACTURING SYSTEMS ANALYSIS 2 1.2. THE SYSTEMS NIGHTMARE 2 1.2.1. Computer Integrated Manufacturing 2 1.2.2. How Incompatible Systems Proliferate 4 1.3. WHY DO PRODUCTION SCHEDULING SYSTEMS FAIL? 8 1. 3.1. Conflict with Performance Measures 8 1.3.2. Management Commitment â€” A Double Edged Sword 10 1.3.3. Inadequate Factory Model 11 1.3.4. Scheduling Is not the Problem 12 1.3.5. The System Cannot Model the Factory 13 1.3.6. Poor Software Quality 15 1.4. CONCLUSION AND DIRECTION 15 V VI CONTENTS Chapter 2 â€” MANAGING THE NEEDS ASSESSMENT PROCESS 17 2.1. ORGANIZATION VERSUS TECHNOLOGY 18 2.2. ORGANIZING THE COMMUNICATION 18 2.2.1. The Analysts 18 The Sales Representative 18 The Consultant 19 The Systems Engineer 20 2.2.2. The Manufacturing Organization 21 What It Must Do to Support the Analysts 21 Analysis Paralysis 21 Corporate Culture 22 2.2.3. The Analysis Process 23 2.3. PRAGMATICS 25 2.3.1. Syntax, Semantics, and Pragmatics 25 2.3.2. Comparing a System with a Requirements Document 26 2.3.3. Current Factory versus Future Factory 26 2.4. THE ANALYST S TOOLS 27 2.4.1. Manufacturing Engineering 27 2.4.2. Software Engineering 28 2.5. CONCLUSION 29 Chapter 3 â€” STRUCTURED ANALYSIS IN MANUFACTURING 30 3.1. INTRODUCTION 31 3.1.1. A Hardware Diagram 31 3.1.2. A Concepts Diagram 3 2 3.1.3. An External Context Diagram 33 3.2. STRUCTURED ANALYSIS 36 3.3. OBSOLETE ALTERNATIVES TO STRUCTURED ANALYSIS 36 3.3.1. Boilerplates 36 3.3.2. How Charts 37 3.4. VARIANTS OF STRUCTURED ANALYSIS 38 3.4.1. Petri Nets 38 3.4.2. Gane and Sarson s SADT 39 3.5. CONCLUSION 39 Chapter 4 â€” DATA FLOW MODELING 41 4.1. HIERARCHICAL EXPLOSION OF PROCESSORS 42 4.2. DE MARCO S CONVENTIONS 42 4.3. WHEN IS A DATA FLOW DIAGRAM USEFUL? 44 4.3.1. External Context Specification 44 4.3.2. Reports 44 4.3.3. Diagnostic Systems 45 4.3.4. Transactions 45 4.3.5. Administration 46 4.4. DATA FLOW VERSUS CONTROL FLOW 4 7 CONTENTS VII 4.4.1. Why the Distinction Matters 47 4.4.2. Telling Control Flow from Data Flow 48 4.4.3. Relativity of the Meaning of Control Flow 49 4.5. DIAGRAM AESTHETICS AND CROSSED ARROWS 50 Appendix A â€” Three Houses and Three Utilities 51 Chapter 5 â€” STATE TRANSITION MODELS IN MANUFACTURING 54 5.1. OBJECT MODELING 5 4 5.1.1. What an Object Is and Isn t 54 5.1.2. State Descriptions 55 5.1.3. Events 58 External Events 58 Temporal Events 59 Internal Events 59 Events Induced by History 59 5.1.4. State Transition Models and the Markov Property 59 5.2. REVIEWING A STATE TRANSITION DIAGRAM 61 5.2.1. Sources and Sinks 61 5.2.2. Reducibility 62 5.3. APPLICATION EXAMPLES 63 5.3.1. A Vehicle 63 Modeling Location by Coordinates 63 Modeling Location by Station 64 Modeling Activity Types 64 5.3.2. Engineering Changes 65 Chapter 6 â€” MODELING THE FACTORY S MEMORY 68 6.1. MODELING THE SYSTEM MEMORY 69 6.1.1 What the System Remembers 69 6.1.2. Modeling for Retrieval 70 6.2. SETS AND MEMORY MODELS 70 6.2.1. From Sets to Databases 7 0 Foundations 70 Pragmatic Neutrality 71 Database Atoms 72 Properties 72 Tuples 72 Unions and Intersections 73 Subsets and Enumeration 73 Infinite Sets, Factory Models, and Database Size 73 Choice 74 6.2.2. Relations 74 6.2.3. Mappings 76 Definition 76 Rule versus Lookup 76 Many to Many Relationships 76 6.2.4. Relational Algebra 77 VIII CONTENTS 6.2.5. Need for Graphic Notations 78 6.3. GRAPHICS 78 6.3.1. Entity Relationship Diagrams 78 6.3.2. Diagrams for Relations of Arity 2 79 6.3.3. Representing Set Inclusion 80 6.4. SECURITY 81 Appendix A â€” RELATIONAL ALGEBRA OPERATIONS 81 6.A.I. Selection 81 6.A.2. Projection 82 6.A.3. Join 82 6.A.4. Division 82 Chapter 7 â€” DATA DICTIONARIES IN MANUFACTURING 83 7.1. DEFINING ATTRIBUTES IN A DATA DICTIONARY 84 7.1.1. Purpose of Data Dictionaries 8 4 7.1.2. De Marco s Conventions 84 7.1.3. Optional Attributes 86 7.1.4. Relations as Attributes 8 7 7.1.5. Textual Explanations 87 7.1.6. Redundancies 88 7.2. DEFINITIONS 88 7.2.1. The Reader s Point of View 88 7.2.2. Defining Primitives 89 7.2.3. Defining Inferred Results 89 7.2.4. Established Usage 90 7.3. LIMITATIONS OF THE DE MARCO CONVENTIONS 92 7.3.1. Variant Structures 92 7.3.2. Bills of Materials and Recursion 93 Appendix A â€” AN EXCURSION INTO SOFTWARE DESIGN 95 7.A. 1. Variant Types in PASCAL 9 5 7.A.2. First Relational Structure 96 7.A.3. Variants in PROLOG or LISP 97 7.A.4. Variants with No Redundancy 97 7.A.5. Second Relational Structure 98 7.A.6. What Is Actually Done 99 Chapter 8 â€” MODELING PROCEDURES AND DECISIONS 100 8.1. MODELING PROCEDURES 100 8.2. STRUCTURED NATURAL LANGUAGE 101 8.3. DECISION TREES 103 8.5. ALGORITHMS 106 CONTENTS IX Chapter 9 â€” ESSENTIAL SYSTEMS ANALYSIS 108 9.1. THE ESSENTIAL MODEL OF A WORK CELL 108 9.1.1. Event Partitioning 109 9.1.2. Object Partitioning 110 9.1.3. Integration 111 9.1.4. Conclusions on Work Cell Modeling 111 Work Cells as Attributes of Other Objects 112 Work Cells as Independent Data Objects 112 Work Cells in Object Oriented Programming 112 Dedicated Hardware 112 9.2. EXTRACTING THE ESSENCE OF A SYSTEM 112 9.2.1. The Perfect Technology Assumption 112 9.2.2. Fundamental and Custodial Activities 113 9.2.3. Administration 114 9.2.4. Logical Core and Interface Ring 114 Chapter 10 â€” MATERIAL FLOW MODELING 117 10.1. MATERIAL FLOWS IN FACTORIES 117 10.2. THE ASME SYMBOLS AND THEIR VARIANTS 121 10.2.1. Vocabulary 122 10.2.2. Convergence and Divergence 124 10.2.3. JIS Symbols 125 10.2.4. Representation of Deepening Commitments 126 List of States 126 List of Operations 127 Addition of Inspections, Scrap, and Rework 127 Assignment of Equipment and Transport Steps 128 10.3. TRADITIONAL USES OF MATERIAL FLOW DIAGRAMS 129 10.3.1. Graphic Coding of Documents for Identification 129 10.3.2. Process Analysis 129 10.3.3. Physical Flow Analysis 130 10.4. HIERARCHICAL MATERIAL FLOW MODELING 132 Chapter 11 â€” MATERIAL FLOW VERSUS DATA FLOW 134 11.1. DIFFERENCES BETWEEN MATERIAL AND DATA FLOWS 13 5 11.2. FROM MATERIAL FLOW TO DATA FLOW 13 7 11.3. TOWARDS A LAYERED MODEL OF MATERIALS HANDLING 143 11.3.1. The ISO OSI Model of Data Communication 143 Layer 7 â€” Application 144 Layer 6 â€” Presentation 146 Layer 5 â€” Session 146 Layer 4 â€” Transport 146 Layer 3 â€” Network 146 Layer 2 â€”Link 147 Layer 1 â€” Physical 147 X CONTENTS 11.3.2. Ambiguities in the ISO OSI Model 148 11.3.3. Similarities and Differences between the Models 148 11.3.4. A Layered Model for Materials Handling 149 11.4. CONCLUSION 149 Chapter 12 â€” MANUFACTURING FUNDS FLOW 150 12.1. A MISSING PERSPECTIVE 151 12.1.1. The Triple Flow Model 151 12.1.2. Manufacturing Funds Flow Analysis Issues 152 12.2. THE BUSINESS OF MANUFACTURING 153 12.2.1. Business Performance in General 153 12.2.2. The Paradox of the Blot Line 156 12.3. THE FACTORY AND ITS OPERATING FUNDS FLOWS 156 12.3.1. Effect of Throughput Time Reductions 159 12.3.2. Price Erosion and Experience Curves 161 12.3.3. The Example of a Memory Factory 164 12.4. FINANCIAL ANALYSIS METHODS IN MANUFACTURING 170 12.4.1. Cost Accounting and Manufacturing 170 12.4.2. Payback Period 172 12.4.3. Discounted Cash Flows 173 12.5. RELATION TO DATA FLOWS AND MATERIAL FLOWS 175 Part Two â€” APPLICATION TO PRODUCTION SCHEDULING 177 Chapter 13 â€”COMPONENTS OF PRODUCTION SCHEDULING 177 13.1. TIME 178 13.2. THE PRODUCTION NETWORK 181 13.3. PART AGGREGATES 181 13.3.1. Lot 181 13.3.2. Load 182 13.3.3. Process Batch 182 13.3.4. Transfer Batch 182 13.3.5. Kit 182 13.4. ACTIVITY TYPES 182 13.4.1. Fabrication 183 13.4.2. Assembly 186 13.4.3. Disassembly 186 13.4.4. Inspection. Sorting, and Binning 187 13.4.5. Transport 188 13.4.6. Storage and Retrieval 188 13.5. RESOURCES 189 13.5.1. Hierarchical Model 189 13.5.2. Work Centers versus Work Cells 189 CONTENTS XI 13.5.3. Resource Characterization 189 13.5.4. Little s Law 192 13.5.5. Infinitely Divisible Resources 194 13.5.6. Composite Resources 196 13.5.7. Setup Times and Setup Matrices 197 13.5.8. Interruptions of Service 198 13.6. INVENTORY 199 13.6.1. Schedule Based Buffer Analysis 200 13.6.2. Age Distribution Analysis 200 13.6.3. Batch Size Adjustment Buffers 202 13.6.4. Safety Stocks 204 13.6.5. Queue Organization 205 13.7. PUTTING IT ALL TOGETHER 207 Chapter 14 â€”THE BACKWARD SCHEDULING LOGIC OF MRP II 209 14.1. MRP S IMPLEMENTATION RECORD 209 14.2. THE PHILOSOPHY OF MRP II 210 14.3. WIGHT S DISCUSSION OF MRP VERSUS REORDER POINT 211 14.4. THE EXTERNAL CONTEXT OF MRP II 212 14.5. MODULAR BREAKDOWN 213 14.5.1. The Master Production Schedule (MPS) 214 14.5.2. Backward Explosion of Demand 217 14.5.3. Net Inventories 218 14.5.4. The Time Zero Spike 219 14.6. CAPACITY CALCULATIONS 221 14.6.1. Capacity Modeling in MRP II 221 14.6.2. Capacity Requirements Planning 221 Chapter 15 â€”DISPATCHING IN MRP II 224 15.1. FROM PLANNING TO DISPATCHING 225 15.2. REAL TIME, ON LINE, AND OFF LINE DISPATCH 226 15.3. DISPATCHING ALGORITHMS 227 15.3.1. First In First Out (FIFO) 227 15.3.2. Earliest Due Date (EDD) 228 15.3.3. Shortest Processing Time (SPT) 228 15.3.4. Slack 229 15.3.5. Critical Ratio 230 Appendix A. EDD, SPT, AND SLACK FOR N JOBS ON 1 MACHINE 232 15.A.1. EDD Minimizes the Maximum Lateness 232 15.A.2. SPT Minimizes the Average Throughput Time 233 15.A.3. Slack Maximizes the Minimum Lateness 234 Appendix B. WAITING TIMES IN QUEUES WITH POISSON ARRIVALS 234 XII CONTENTS Chapter 16 â€”APPRAISING MRP II 239 16.1. WHY CRP IS RARELY IMPLEMENTED 239 16.2. THE INTERPRETATION OF STANDARD THROUGHPUT TIMES 240 16.3. INADEQUACY OF SINGLE PARAMETER MODELS 240 16.3.1. Throughput Time Modeling 240 16.3.2. Yield Modeling 242 16.4. THE TIME PERIOD DILEMMA 243 16.5. THE 10.000 KNOB. CONTROL PANEL 245 16.6. RESPONSE TO ACTIVITY LEVEL CHANGES 245 16.7. WHEN DOES MRP WORK? 246 Chapter 17 â€”THE THEORY OF OPT 248 17.1. OPT IN THE UNITED STATES 248 17.2. FROM BUSINESS ANALYSIS TO SCHEDULES 250 17.3. THE OPT CONCEPT OF BOTTLENECK 250 17.4. FROM BOTTLENECKS TO CAPACITY CONSTRAINT RESOURCES 252 17.5. THE UNBALANCED PLANT 253 17.5.1. Eli Goldratt s argument 253 17.5.2. External versus Internal Variability 253 17.5.3. The Cost of Capacity 254 17.5.4. Flow Balance and Time 255 17.5.5. Process Batches and Transfer Batches 256 17.5.6. Considering All Constraints Simultaneously 256 17.6. THE SECRET ALGORITHM 256 Appendix A TIME LOST DUE TO BREAKS 256 Chapter 18 â€”THE OPT PRODUCTION SCHEDULING SOFTWARE 259 18.1. FUNCTIONS OF THE OPT SOFTWARE PRODUCT 259 18.1.1. External Context 259 18.1.2. The OPT Factory Model 260 18.1.3. The Essential Modules of OPT 263 18.1.4. Backward Scheduling with SERVE 265 18.2. GENERATING SCHEDULES WITH OPT 269 18.2.1. Pure SERVE Run 269 18.2.2. Focused Data Cleaning 269 18.2.3. Split OPT Serve Reports 269 18.3. COMMENTS ON THE OPT PRODUCT DESIGN 270 18.3.1. The OPT Software â€” The Price of Portability 270 18.3.2. OPT s Nonstandard Terminology 272 18.4. CONCLUSION 272 CONTENTS XIII Chapter 19 â€” FINITE FORWARD SCHEDULING AND DISCRETE EVENT SIMULATION 274 19.1. FINITE FORWARD SCHEDULING 275 19.1.1. What is Finite Forward Scheduling ? 275 19.1.2. Job Shop Scheduling versus Production Scheduling 275 19.1.3. Nondelay Schedules 276 19.2. TASK AND RESOURCE MODEL 276 19.3. Producing a Schedule 280 19.4. DISCRETE EVENT SIMULATION 282 Chapter 20 â€” MATERIAL FLOWS IN JUST IN TIME 283 20.1. JUST IN TIME AS A HOLISTIC APPROACH 284 20.1.1. Just In Time â€” What s in a Name? 284 20.1.2. Seek Repetitiveness 285 20.1.3. Manufacturing, Marketing, and JIT 287 20.1.4. Job Shops, MRP, and JIT 288 Pros and Cons of Job Shop Layouts 288 JIT and Factory Response to Change 289 20.1.5. Holistic Manufacturing 289 20.2. FUNDAMENTALS OF FLOW LINES 290 20.2.1. Demand Structure Analysis 290 20.2.2. Flow Line Organization 291 Comparison of JIT with Group Technology 292 JIT Cell Structure 292 20.2.3. Setup Time Reduction 294 Dedication by Families 294 Standardization of Procedures and Training 294 Machine Modifications 295 20.3. AUTOMATION 295 20.4. INTEGRATION WITH EQUIPMENT MAINTENANCE 296 20.4.1. Motivation 296 20.4.2. Training and Operation Standards 297 20.4.3. Housekeeping 297 20.5. INTEGRATION WITH QUALITY CONTROL 299 20.5.1. Effects of Flow Lines on Quality 299 20.5.2. Just In Time and SQC 299 20.5.3. Foolproofing the Process with Pokayoke 300 20.6. PEOPLE AS THE MOST CRITICAL RESOURCE 300 20.7. BACK TO PRODUCTION SCHEDULING 302 Chapter 21 â€”JUST IN TIME PRODUCTION SCHEDULING 303 21.1. DAMPING EXTERNAL VARIABILITY 303 21.1.1. The Overbooking Model 304 21.1.2. Demand and Production Forecasting 305 21.2. GENERATION OF LEVEL SCHEDULES 307 XIV CONTENTS 21.2.1. First Blender Algorithm 308 21.2.2. The Monden Algorithm 309 21.3. FLOW CONTROL ON THE SHOP FLOOR 311 21.3.1. The Kanban system 311 Kanban Flows between Two Cells 311 Exception Handling 313 Kanban State Transitions 313 Data Flow Model 313 21.3.2. The Timetable Planning System 316 Forward Scheduling of Resources 316 Monthly Production Calendars 317 Weekly Production Calendars 317 Scope of Applicability 319 21.4. TO WHAT EXTENT SHOULD JIT BE COMPUTERIZED? 320 Chapter 22 â€”PERFORMANCE MODELING AND JUST IN TIME 322 22.1. OBJECTIVES AND METHODS 323 22.1.1. Inferring Steady State Throughput Parameters 323 22.1.2. Three Approaches 323 Back of the Envelope Formulas 323 Queueing Network Algorithms 324 Discrete Event Simulation 328 22.2. EFFECT OF LEVELING ON PROCESS BATCHES 329 22.2.1. Run Length in a Multiproduct FIFO Queue 329 22.2.2. Effect of the Service Rate 331 22.2.3. Maximum Run Length in a Level Schedule 332 22.2.4. The Zealots Paradox 333 22.3. PERFORMANCE ANALYSIS OF THE KANBAN SYSTEM 335 22.3.1. What the Literature Says 335 22.3.2. Towards a Queueing Network Model 336 Simplifying Assumptions 336 The Cyclic Queue Model 338 Interpretation 340 Appendix A. RUN LENGTH WITH MULTICLASS SINGLE SERVER 341 Appendix B. EQUILIBRIUM OF A TRUNCATED CYCLIC QUEUE 345 REFERENCES 349 INDEX 353
any_adam_object	1
author	Baudin, Michel
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id	DE-604.BV006084873
illustrated	Illustrated
indexdate	2024-07-09T16:40:01Z
institution	BVB
isbn	0135563828
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-003841812
oclc_num	19126417
open_access_boolean
owner	DE-703 DE-188
owner_facet	DE-703 DE-188
physical	XXI, 360 S. graph. Darst.
publishDate	1990
publishDateSearch	1990
publishDateSort	1990
publisher	Yourdon Press
record_format	marc
series2	Yourdon Press computing series
spelling	Baudin, Michel Verfasser aut Manufacturing systems analysis with application to production scheduling Michel Baudin 1. print. Englewood Cliffs, NJ Yourdon Press 1990 XXI, 360 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Yourdon Press computing series Datenverarbeitung Production planning Data processing Production scheduling Data processing System analysis Data processing Fertigungssystem (DE-588)4154150-9 gnd rswk-swf Systemanalyse (DE-588)4116673-5 gnd rswk-swf Produktionsplanung (DE-588)4047360-0 gnd rswk-swf Datenverarbeitung (DE-588)4011152-0 gnd rswk-swf Planung (DE-588)4046235-3 gnd rswk-swf Produktionsplanung (DE-588)4047360-0 s Datenverarbeitung (DE-588)4011152-0 s Systemanalyse (DE-588)4116673-5 s DE-604 Fertigungssystem (DE-588)4154150-9 s Planung (DE-588)4046235-3 s HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003841812&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Baudin, Michel Manufacturing systems analysis with application to production scheduling Datenverarbeitung Production planning Data processing Production scheduling Data processing System analysis Data processing Fertigungssystem (DE-588)4154150-9 gnd Systemanalyse (DE-588)4116673-5 gnd Produktionsplanung (DE-588)4047360-0 gnd Datenverarbeitung (DE-588)4011152-0 gnd Planung (DE-588)4046235-3 gnd
subject_GND	(DE-588)4154150-9 (DE-588)4116673-5 (DE-588)4047360-0 (DE-588)4011152-0 (DE-588)4046235-3
title	Manufacturing systems analysis with application to production scheduling
title_auth	Manufacturing systems analysis with application to production scheduling
title_exact_search	Manufacturing systems analysis with application to production scheduling
title_full	Manufacturing systems analysis with application to production scheduling Michel Baudin
title_fullStr	Manufacturing systems analysis with application to production scheduling Michel Baudin
title_full_unstemmed	Manufacturing systems analysis with application to production scheduling Michel Baudin
title_short	Manufacturing systems analysis with application to production scheduling
title_sort	manufacturing systems analysis with application to production scheduling
topic	Datenverarbeitung Production planning Data processing Production scheduling Data processing System analysis Data processing Fertigungssystem (DE-588)4154150-9 gnd Systemanalyse (DE-588)4116673-5 gnd Produktionsplanung (DE-588)4047360-0 gnd Datenverarbeitung (DE-588)4011152-0 gnd Planung (DE-588)4046235-3 gnd
topic_facet	Datenverarbeitung Production planning Data processing Production scheduling Data processing System analysis Data processing Fertigungssystem Systemanalyse Produktionsplanung Planung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003841812&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT baudinmichel manufacturingsystemsanalysiswithapplicationtoproductionscheduling

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