Verfügbarkeit: Theory of modeling and simulation

Theory of modeling and simulation: integrating discrete event and continuous complex dynamic systems

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Bibliographische Detailangaben
Hauptverfasser:	Zeigler, Bernard P. 1940- (VerfasserIn), Prähofer, Herbert (VerfasserIn), Kim, Tag Gon (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	San Diego, Calif. [u.a.] Academic Press 2000
Ausgabe:	2. ed.
Schlagworte:	Modellierung Simulation Dynamisches System Mathematische Methode Diskretes Ereignissystem
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XXI, 510 S. graph. Darst.
ISBN:	0127784551 9780127784557

Internformat

MARC


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Datensatz im Suchindex

_version_	1804127767520870400
adam_text	THEORY OF MODELING AND SIMULATION INTEGRATING DISCRETE EVENT AND CONTINUOUS COMPLEX DYNAMIC SYSTEMS SECOND EDITION BERNARD P. ZEIGLER ELECTRICAL AND COMPUTER ENGINEERING DEPARTMENT UNIVERSITY OF ARIZONA TUCSON, ARIZONA HERBERT PRAEHOFER INSTITUTE OF SYSTEMS SCIENCE JOHANNES KEPLER UNIVERSITY LINZ, AUSTRIA TAG GON KIM DEPARTMENT OF ELECTRICAL ENGINEERING KOREA ADVANCED INSTITUTE OF SCIENCE AND TECHNOLOGY TAEJON, KOREA ACADEMIC PRESS A HARCOURT SCIENCE AND TECHNOLOGY COMPANY SAN DIEGO SAN FRANCISCO NEW YORK BOSTON LONDON SYDNEY TOKYO CONTENTS I PREFACE TO FIRST EDITION XVII PREFACE TO SECOND EDITION XIX ACKNOWLEDGMENTS XXI PART I: BASICS 1 CHAPTER 1 INTRODUCTION TO SYSTEMS MODELING CONCEPTS 3 1.1 SYSTEMS SPECIFICATION FORMALISMS 3 1.1.1 RELATION TO OBJECT ORIENTATION 5 1.1.2 EVOLUTION OF SYSTEMS FORMALISMS 6 1.1.3 COMBINING CONTINUOUS AND DISCRETE FORMALISMS 7 1.1.4 QUANTIZED SYSTEMS 8 1.1.5 EXTENSIONS OF DEVS 9 1.2 LEVELS OF SYSTEM KNOWLEDGE 11 1.3 INTRODUCTION TO THE HIERARCHY OF SYSTEMS SPECIFICATIONS 13 1.4 THE SPECIFICATION LEVELS INFORMALLY PRESENTED 14 1.4.1 OBSERVATION FRAME 14 1.4.2 I/O BEHAVIOR AND I/O FUNCTION 16 1.4.3 STATE TRANSITION SYSTEM SPECIFICATION 17 1.4.4 COUPLED COMPONENT SYSTEM SPECIFICATION 18 1.5 SYSTEM SPECIFICATION MORPHISMS: BASIC CONCEPTS 18 1.6 SUMMARY 21 1.7 SOURCES 22 DEFINITIONS, ACRONYMS, ABBREVIATIONS 23 CHAPTER 2 FRAMEWORK FOR MODELING AND SIMULATION 25 2.1 THE ENTITIES OF THE FRAMEWORK 25 2.1.1 SOURCE SYSTEM 25 2.1.2 EXPERIMENTAL FRAME 27 2.1.3 MODEL . 29 2.1.4 SIMULATOR 30 2.2 PRIMARY RELATIONS AMONG ENTITIES 30 2.2.1 MODELING RELATION: VALIDITY 30 2.2.2 SIMULATION RELATION: SIMULATOR CORRECTNESS 32 2.3 OTHER IMPORTANT RELATIONSHIPS 32 2.3.1 MODELING AS VALID SIMPLIFICATION 32 2.3.2 EXPERIMENTAL FRAME: MODEL RELATIONSHIPS 33 2.4 TIME 34 2.5 SUMMARY 35 2.6 SOURCES 36 VII VIII CONTENTS CHAPTER 3 MODELING FORMALISMS AND THEIR SIMULATORS 37 3.1 INTRODUCTION 37 3.2 DISCRETE TIME MODELS AND THEIR SIMULATORS 37 3.2.1 DISCRETE TIME SIMULATION 39 3.2.2 CELLULAR AUTOMATA 40 3.2.3 CELLULAR AUTOMATON SIMULATION ALGORITHMS 43 3.2.4 DISCRETE EVENT APPROACH TO CELLULAR AUTOMATON SIMULATION 44 3.2.5 SWITCHING AUTOMATA/SEQUENTIAL MACHINES 45 3.2.6 LINEAR DISCRETE TIME NETWORKS AND THEIR STATE BEHAVIOR 47 3.3 DIFFERENTIAL EQUATION MODELS AND THEIR SIMULATORS 49 3.3.1 CONTINUOUS SYSTEM SIMULATION 50 3.3.2 FEEDBACK IN CONTINUOUS SYSTEMS 55 3.3.3 ELEMENTARY LINEAR SYSTEMS 56 3.3.4 NONLINEAR OSCILLATORS: LIMIT CYCLES AND CHAOTIC BEHAVIORS 61 3.3.5 CONTINUOUS SYSTEM SIMULATION LANGUAGES AND SYSTEMS 64 3.4 DISCRETE EVENT MODELS AND THEIR SIMULATORS 66 3.4.1 INTRODUCTION 66 3.4.2 DISCRETE EVENT CELLULAR AUTOMATA 67 3.4.3 DISCRETE EVENT WORLD VIEWS 70 3.5 SUMMARY 72 3.6 SOURCES 73 CHAPTER 4 INTRODUCTION TO DISCRETE EVENT SYSTEM SPECIFICATIONS (DEVS) 75 4.1 INTRODUCTION 75 4.2 CLASSIC DEVS SYSTEM SPECIFICATION 75 4.2.1 DEVS EXAMPLES 77 4.2.2 CLASSIC DEVS WITH PORTS 84 4.2.3 CLASSIC DEVS COUPLED MODELS 85 4.3 PARALLEL DEVS SYSTEM SPECIFICATION 89 4.3.1 PROCESSOR WITH BUFFER 90 4.3.2 PARALLEL DEVS COUPLED MODELS 91 4.4 HIERARCHICAL MODELS 93 4.5 OBJECT-ORIENTED IMPLEMENTATIONS OF DEVS: AN INTRODUCTION 93 4.5.1 STRUCTURAL INHERITANCE 94 4.6 SUMMARY 96 4.7 SOURCES 96 CHAPTER 5 HIERARCHY OF SYSTEM SPECIFICATIONS 99 5.1 TIME BASE 99 5.2 SEGMENTS AND TRAJECTORIES 100 5.2.1 PIECEWISE CONTINUOUS SEGMENTS 102 5.2.2 PIECEWISE CONSTANT SEGMENTS 103 5.2.3 EVENT SEGMENTS 103 5.2.4 SEQUENCES 104 CONTENTS IX 5.3 I/O OBSERVATION FRAME 104 5.4 I/O RELATION OBSERVATION 105 5.5 I/O FUNCTION OBSERVATION 107 5.6 I/O SYSTEM 108 5.6.1 GOING FROM SYSTEM STRUCTURE TO BEHAVIOR 110 5.6.2 TIME-INVARIANT SYSTEMS 112 5.6.3 SPECIAL CASES: INPUT-FREE AND MEMORYLESS SYSTEMS 115 5.7 ITERATIVE SPECIFICATION OF SYSTEMS 116 5.7.1 GENERATOR SEGMENTS 117 5.7.2 GENERATOR STATE TRANSITION SYSTEMS 120 5.8 MULTIVARIABLE SETS AND STRUCTURED SYSTEMS 123 5.9 MULTICOMPONENT SYSTEM SPECIFICATION 125 5.10 NETWORK OF SYSTEM SPECIFICATIONS (COUPLED SYSTEMS) 127 5.10.1 COUPLED SYSTEM SPECIFICATION 128 5.10.2 COUPLED SYSTEM SPECIFICATION AT THE STRUCTURED SYSTEM LEVEL 129 5.11 SUMMARY 131 5.12 SOURCES 133 PART II MODELING FORMALISMS AND SIMULATION ALGORITHMS 135 CHAPTER 6 BASIC FORMALISMS: DEVS, DTSS, DESS 137 6.1 BASIC SYSTEM SPECIFICATION FORMALISMS 137 6.2 DISCRETE EVENT SYSTEM SPECIFICATIONS (DEVS) 138 6.2.1 CLASSIC DEVS 138 6.2.2 STRUCTURE SPECIFIED BY DEVS 139 6.2.3 LEGITIMACY: WHEN IS THE STRUCTURE SPECIFIED BY A DEVS REALLY A SYSTEM? 141 6.3 PARALLEL DEVS 142 6.3.1 SYSTEM SPECIFIED BY PARALLEL DEVS 144 6.4 DISCRETE TIME SYSTEM SPECIFICATION (DTSS) 144 6.5 DIFFERENTIAL EQUATION SYSTEM SPECIFICATION (DESS) 146 6.6 SUMMARY 147 CHAPTER 7 BASIC FORMALISMS: COUPLED MULTICOMPONENT SYSTEMS 149 7.1 DISCRETE EVENT SPECIFIED NETWORK FORMALISM 149 7.1.1 CLASSIC DEVS COUPLED MODELS 150 7.1.2 PARALLEL DEVS COUPLED MODELS 152 7.2 MULTICOMPONENT DISCRETE EVENT SYSTEM FORMALISM 155 7.2.1 EVENT SCHEDULING MODELS 159 7.2.2 COMBINED EVENT SCHEDULING, ACTIVITY SCANNING SIMULATION STRATEGY .159 7.2.3 PROCESS INTERACTION MODELS 161 7.2.4 TRANSLATING NONMODULAR MULTICOMPONENT DEVS MODELS INTO MODULAR FORM 161 7.2.5 STATE UPDATING IN DISTRIBUTED SIMULATION 162 X CONTENTS 7.3 DISCRETE TIME SPECIFIED NETWORK FORMALISM 163 7.4 MULTICOMPONENT DISCRETE TIME SYSTEM FORMALISM 166 7.5 DIFFERENTIAL EQUATION SPECIFIED NETWORK FORMALISM 168 7.6 MULTICOMPONENT DIFFERENTIAL EQUATIONS SPECIFIED SYSTEM FORMALISM 169 7.7 SUMMARY 171 7.8 SOURCES 172 APPENDIX 173 CHAPTER 8 SIMULATORS FOR BASIC FORMALISMS 175 8.1 SIMULATORS FOR DEVS 176 8.1.1 SIMULATOR FOR BASIC DEVS 177 8.1.2 SIMULATORS FOR MODULAR DEVS NETWORKS 180 8.1.3 THE ROOT-COORDINATOR 184 8.2 DEVS BUS 184 8.2.1 SIMULATOR FOR EVENT SCHEDULING MULTICOMPONENT DEVS 185 8.2.2 SIMULATOR FOR ACTIVITY SCANNING AND PROCESS INTERACTION MULTICOMPONENT DEVS 187 8.3 SIMULATORS FOR DTSS 189 8.3.1 SIMULATOR FOR ATOMIC DTSS 190 8.3.2 SIMULATOR FOR INSTANTANEOUS FUNCTIONS 192 8.3.3 SIMULATOR FOR NONMODULAR MULTICOMPONENT DTSS 192 8.3.4 SIMULATORS FOR COUPLED DTSS 193 8.3.5 THE ROOT-COORDINATOR 196 8.4 SIMULATORS FOR DESS 197 8.4.1 CAUSAL SIMULATOR FOR DESS 197 8.4.2 NONCAUSAL SIMULATOR FOR DESS 198 8.5 SUMMARY 201 8.6 SOURCES 201 CHAPTER 9 MULTIFORMALISM MODELING AND SIMULATION 203 9.1 BRIEF INTRODUCTION TO SPECIALIZED FORMALISMS 203 9.1.1 DESS SUBFORMALISMS: SYSTEMS DYNAMICS AND BOND GRAPHS 203 9.1.2 DEVS SUBFORMALISMS: PETRI NETS AND STATECHARTS 204 9.2 MULTIFORMALISM MODELING 206 9.3 DEV&DESS: COMBINED DISCRETE EVENT AND DIFFERENTIAL EQUATION SPECIFIED SYSTEMS 208 9.3.1 A SIMPLE EXAMPLE: DEV&DESS MODEL OF A BARREL FILLER 210 9.3.2 SYSTEM SPECIFIED BY A DEV&DESS 213 9.4 MULTIMODELING WITH DEV&DESS 214 9.4.1 EXAMPLE: POT SYSTEM WITH COMMAND INPUTS AND THRESHOLD VALUE OUTPUTS 216 9.5 COUPLED DEV&DESS: NETWORK OF MULTIFORMALISM MODELS 217 9.5.1 BASIC FORMALISMS ARE SUBSUMED BY DEV&DESS 217 9.5.2 COUPLED DEV&DESS FORMALISM 219 CONTENTS XI 9.6 SIMULATOR FOR DEVS&DESS 222 9.6.1 THE DEV&DESS-SIMULATOR AND-COORDINATOR 223 9.6.2 INTEGRATING DIFFERENT MODELING FORMALISMS 226 9.7 - SOURCES 227 APPENDIX A: THE SYSTEM SPECIFIED BY A DEV&DESS 229 APPENDIX B: THE SYSTEM SPECIFIED BY A MULTIFORMALISM SYSTEM-CLOSURE UNDER COUPLING OF NETWORKS OF DEV&DESS 231 CHAPTER 10 DEVS-BASED EXTENDED FORMALISMS 233 10.1 STOCHASTIC SYSTEMS: CONVENTIONAL APPROACH TO UNCERTAINTY 233 10.2 DSDEVS (DYNAMIC STRUCTURE DEVS) 235 10.2.1 DSDEVS CLOSURE UNDER COUPLING 237 10.2.2 EXAMPLE: ADAPTIVE PROCESSING ARCHITECTURES 237 10.3 SYMBOLIC DEVS 240 10.3.1 SYMBOLIC DEVS COUPLED MODELS 241 10.3.2 EXAMPLE: PERFORMANCE EVALUATION OF BASIC ARCHITECTURES 241 10.4 FUZZY DEVS 244 10.4.1 BASIC FUZZY DEVS FORMALISM 247 10.4.2 EMBEDDING FUZZY DEVS IN DEVS 250 10.4.3 EXAMPLE: FUZZY DEVS MODEL FOR BOILER SYSTEM 251 10.5 REAL-TIME DEVS (RT-DEVS) 252 10.5.1 FORMAL SPECIFICATION OF REAL-TIME DEVS MODELS 252 10.5.2 EXECUTION OF RT-DEVS MODELS 253 10.5.3 EXAMPLE OF RT-DEVS: ELEVATOR CONTROL 254 10.5.4 REAL-TIME SIMULATION AND RT-DEVS 257 10.6 SUMMARY 259 10.7 SOURCES 259 CHAPTER 11 PARALLEL AND DISTRIBUTED DISCRETE EVENT SIMULATION 261 11.1 PROBLEM CHARACTERIZATION OF PARALLEL DISCRETE EVENT SIMULATION 262 11.2 CONSERVATIVE PARALLEL DISCRETE EVENT SIMULATION 264 11.2.1 CONSERVATIVE PARALLEL DEVS SIMULATOR 268 11.3 OPTIMISTIC PARALLEL DISCRETE EVENT SIMULATION 273 11.3.1 TIME-WARP DEVS SIMULATOR 275 11.3.2 RISKFREE OPTIMISTIC DEVS SIMULATOR 281 11.4 PARALLEL DEVS SIMULATOR 284 11.5 SUMMARY 287 11.6 SOURCES 287 PART III SYSTEM MORPHISMS: ABSTRACTION, REPRESENTATION, APPROXIMATION 293 CHAPTER 12 HIERARCHY OF SYSTEM MORPHISMS 295 12.1 THE I/O FRAME MORPHISM 297 12.2 THE I/O RELATION OBSERVATION MORPHISM 297 XII CONTENTS 12.3 THE I/O FUNCTION MORPHISM 298 12.3.1 IOFO SYSTEM MORPHISM IMPLIES IORO SYSTEM MORPHISM 300 12.4 THE I/O SYSTEM MORPHISM 301 12.4.1 I/O SYSTEM MORPHISM IMPLIES IOFO AND IORO MORPHISM 302 12.4.2 THE LATTICE OF PARTITIONS AND THE REDUCED VERSION OF A SYSTEM 305 12.5 SYSTEM MORPHISM FOR ITERATIVELY SPECIFIED SYSTEMS 308 12.5.1 ITERATIVE SPECIFICATION MORPHISM IMPLIES I/O SYSTEM MORPHISM 309 12.5.2 SPECIALIZATION OF MORPHISMS FOR ITERATIVELY SPECIFIED SYSTEMS 310 12.6 THE STRUCTURED SYSTEM MORPHISM 311 12.7 MULTICOMPONENT SYSTEM MORPHISM 314 12.8 THE NETWORK OF SYSTEMS MORPHISM 317 12.9 HOMOMORPHISM AND CASCADE DECOMPOSITIONS 320 12.10 CHARACTERIZATION OF REALIZABLE I/O RELATIONS AND FUNCTIONS 324 12.10.1 CANONICAL REALIZATION 326 12.11 SUMMARY 327 12.12 SOURCES 327 CHAPTER 13 ABSTRACTION: CONSTRUCTING MODEL FAMILIES 329 13.1 SCOPE/RESOLUTION/INTERACTION PRODUCT 329 13.1.1 COMPLEXITY 330 13.1.2 SIZE/RESOLUTION TRADE-OFF: SIMPLIFICATION METHODS 332 13.1.3 HOW OBJECTIVES AND EXPERIMENTAL FRAME DETERMINE ABSTRACTION POSSIBILITIES 334 13.2 INTEGRATED FAMILIES OF MODELS 335 13.2.1 INTEGRATED MODEL FAMILY EXAMPLE: SPACE TRAVEL 335 13.2.2 SPACE TRAVEL BASE MODEL ^336^ 13.3 AGGREGATION: HOMOGENEITY/COUPLING INDIFFERENCE PRINCIPLES 339 13.3.1 COUPLING CONDITIONS IMPOSED BY ANONYMITY 342 13.3.2 CONSTRUCTING LUMPED MODELS BASED ON IDENTITY-ERASING AGGREGATION 344 13.3.3 ALL-TO-ONE COUPLING 348 13.3.4 EXAMPLE OF AGGREGATION MODEL CONSTRUCTION: SPACE TRAVEL 349 13.3.5 CONSTRUCTING AGGREGATIONS THROUGH STATE AND BLOCK REFINEMENT 351 13.3.6 TIME SCALE RELATIONS 353 13.3.7 UNIVERSALITY/APPLICABILITY OF IDENTITY-ERASING AGGREGATIONS 353 13.4 ABSTRACTIONS FOR EVENT-BASED CONTROL 354 13.4.1 BOUNDARY-BASED DEVS 354 13.4.2 DEVS ABSTRACTION: SPACE TRAVEL EXAMPLE 357 13.5 PARAMETER MORPHISMS 358 13.5.1 LINEAR SYSTEMS PARAMETER MORPHISMS 359 CONTENTS XIII 13.5.2 EXAMPLE LUMPABLE: LINEAR DTSS AND PARAMETER MORPHISMS 360 13.5.3 CONSTRAINTS ON PARAMETER AND STATE SPACES: DISAGGREGATION 362 13.5.4 USING PARAMETER MORPHISMS IN AN INTEGRATED MODEL FAMILY 362 13.6 SUMMARY 364 13.7 SOURCES 364 CHAPTER 14 VERIFICATION, VALIDATION, APPROXIMATE MORPHISMS: LIVING WITH ERROR ... 367 14.1 VERIFICATION 367 14.2 VALIDATION AT THE BEHAVIORAL LEVEL 368 14.2.1 QUANTITATIVE COMPARISON 371 14.2.2 QUALITATIVE COMPARISON 372 14.3 PERFORMANCE/VALIDITY (E.G., SPEED/ACCURACY) TRADE-OFF 373 14.4 APPROXIMATE MORPHISMS AND ERROR BEHAVIOR 377 14.4.1 APPROXIMATE MORPHISMS AND THE SPECIFICATION HIERARCHY 377 14.4.2 APPROXIMATE HOMOMORPHISMS AND ERROR PROPAGATION 378 14.4.3 EXAMPLE: APPROXIMATE LINEAR SYSTEM HOMOMORPHISMS 382 14.5 APPROXIMATE MORPHISMS AT THE COUPLED SYSTEM LEVEL 384 14.5.1 ERROR-DRIVEN AGGREGATION REFINEMENT 384 14.6 VALIDATION AT STRUCTURAL LEVELS 387 14.6.1 CALIBRATION, PARAMETER IDENTIFICATION, SENSITIVITY 388 14.6.2 LOCAL/GLOBAL, CROSS-MODEL VALIDATION 388 14.7 SOURCES 389 CHAPTER 15 DEVS AND DEVS-LIKE SYSTEMS: UNIVERSALITY AND UNIQUENESS 391 15.1 RELATION BETWEEN CLASSICAL AND PARALLEL DEVS: IS THERE ONE OR TWO? 391 15.2 UNIVERSALITY AND UNIQUENESS OF DEVS 393 15.2.1 SYSTEMS WITH DEVS INTERFACES 393 15.2.2 BEHAVIOR OF DEVS-LIKE SYSTEMS 395 15.2.3 UNIVERSALITY OF DEVS 396 15.2.4 EXAMPLE: DEVS REALIZATION OF DEVS-LIKE SYSTEM 397 15.2.5 UNIQUENESS OF DEVS 398 15.3 DEVS REPRESENTATION OF DTSS 399 15.3.1 INPUT-FREE MOORE 400 15.3.2 MULTIPORTED FNSS 400 15.3.3 MOORE DTSS WITH INPUT 401 15.3.4 MEALY DTSS 401 15.3.5 DEVS STRONG SIMULATION OF DTSS COUPLED MODELS 401 15.4 EFFICIENT DEVS SIMULATION OF DTSS NETWORKS 403 15.5 SUMMARY 405 15.6 SOURCES 405 APPENDIX: ISOMORPHICALLY REPRESENTING DEVS-LIKE SYSTEMS BY DEVS 406 XIV CONTENTS CHAPTER 16 DEVS REPRESENTATION OF SYSTEMS 411 16.1 DEVS BUS REVISITED /. *. 411 16.1.1 APPROACHES TO DEVS REPRESENTATION OF CONTINUOUS SYSTEMS 412 16.2 DEVS REPRESENTATION USING CONVENTIONAL APPROACH 414 16.2.1 DTSS SIMULATION OF A DESS INTEGRATOR 415 16.2.2 SIMULATION OF COUPLED SYSTEMS BY DTSS 416 16.2.3 DISCRETIZED SIMULATION OF COUPLED DESS WITH ARBITRARILY SMALL ERROR 418 16.2.4 DEVS REPRESENTATION OF DESS VIA DTSS SIMULATION 419 16.3 QUANTIZATION: AN ALTERNATIVE APPROACH FOR DEVS REPRESENTATION 419 16.3.1 QUANTIZED SYSTEMS 421 16.3.2 EXACTLY QUANTIZABLE SYSTEMS 422 16.3.3 QUANTIZED INTEGRATOR: APPROXIMATION OF DESS 424 16.3.4 COUPLED SYSTEMS WITH QUANTIZED COMPONENTS 425 16.3.5 QUANTIZED SIMULATION OF COUPLED SYSTEMS WITH ARBITRARILY SMALL ERROR 427 16.3.6 QUANTIZED SIMULATION OF COUPLED DESS WITH ARBITRARILY SMALL ERROR 429 16.3.7 DEVS REPRESENTATION OF QUANTIZED SYSTEMS 430 16.3.8 DEVS REPRESENTATION OF QUANTIZED INTEGRATOR 431 16.3.9 DEVS SIMULATION OF COUPLED QUANTIZED SYSTEMS 432 16.3.10 QUANTIZATION-BASED DEVS SIMULATION OF DESS 433 16.4 SIMULATION STUDY OF QUANTIZATION 434 16.4.1 SOME INDICATIVE SIMULATION RESULTS 434 16.4.2 COMPARING QUANTIZED DEVS WITH PURE DTSS SIMULATION OF DESS 437 16.4.3 INSIGHT FROM SECOND-ORDER LINEAR OSCILLATOR 439 16.5 CONJECTURES FOR FURTHER RESEARCH 441 16.6 SUMMARY 443 16.7 SOURCES 444 16.8 PROBLEMS 445 APPENDIX 1 CLOSED LOOP DTSS SIMULATION 447 APPENDIX 2 UNIFORMLY SEGMENTABLE INPUT SETS 449 - APPENDIX3 EXACT SIMULATION BY DEVS 451 APPENDIX 4 CLOSED LOOP QUANTIZED SIMULATION 452 I PART IV SYSTEM DESIGN AND MODELING AND , SIMULATION ENVIRONMENTS 455 CHAPTER 17 DEVS-BASED DESIGN METHODOLOGY 457 17.1 METHODOLOGY OVERVIEW 457 17.2 DEVS DEFINITION LANGUAGE 459 17.2.1 ATOMIC DEVS DEFINITION 460 17.2.2 THE COUPLED DEVS DEFINITION 462 17.2.3 EXAMPLE: GENERATOR-BUFFER-PROCESSOR MODEL 463 CONTENTS XV 17.3 EXECUTION OF DEVS DEFINITION 466 17.4 LOGICAL ANALYSIS: MODEL VERIFICATION 468 17.4.1 ASSERTIONAL SPECIFICATION OF TEMPORAL LOGIC 468 17.4.2 TL SPECIFICATION LANGUAGE 473 17.5 MODEL VERIFICATION BY LANGUAGE ACCEPTANCE CHECKING 475 17.6 PERFORMANCE EVALUATION 477 17.7 IMPLEMENTATION: DEVS MODEL EXECUTION 477 17.8 SUMMARY 479 17.9 SOURCES 479 CHAPTER 18 SYSTEM ENTITY STRUCTURE/MODEL BASE FRAMEWORK 481 18.1 MODEL BASE MANAGEMENT BY SYSTEM ENTITY STRUCTURE 481 18.2 SYSTEM ENTITY STRUCTURE 482 18.3 SYSTEM ENTITY STRUCTURE/MODEL BASE (SES/MB) FRAMEWORK 485 18.4 EXAMPLE: DESIGN OF A TRANSACTION PROCESSING SYSTEM 486 18.4.1 SYSTEM ENTITY STRUCTURE 487 18.4.2 MODEL BASE 487 18.4.3 PRUNING AND MODEL SYNTHESIS 487 18.4.4 PERFORMANCE EVALUATION 488 18.5 AUTOMATIC PRUNING OF AN SES 490 18.6 SUMMARY 491 18.7 SOURCES 492 CHAPTER 19 COLLABORATION AND THE FUTURE 495 19.1 AN ARCHITECTURE FOR M&S 495 19.2 HOW DOES COLLABORATION SUPPORT M&S? 497 19.2.1 MODEL CONSTRUCTION 497 19.2.2 MODEL COMPOSITION 497 19.2.3 SUPPORTING M&S WITH COLLABORATION ENVIRONMENTS 497 19.3 SUMMARY 499 19.4 SOURCES 499 INDEX 501
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author	Zeigler, Bernard P. 1940- Prähofer, Herbert Kim, Tag Gon
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id	DE-604.BV013070024
illustrated	Illustrated
indexdate	2024-07-09T18:38:35Z
institution	BVB
isbn	0127784551 9780127784557
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-008904620
oclc_num	264784680
open_access_boolean
owner	DE-91G DE-BY-TUM DE-703 DE-859 DE-29T DE-634 DE-83 DE-188 DE-M347 DE-706
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physical	XXI, 510 S. graph. Darst.
publishDate	2000
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publisher	Academic Press
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spelling	Zeigler, Bernard P. 1940- Verfasser (DE-588)172471893 aut Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems Bernard P. Zeigler ; Herbert Praehofer ; Tag Gon Kim Theory of modelling and simulation 2. ed. San Diego, Calif. [u.a.] Academic Press 2000 XXI, 510 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Hier auch später erschienene, unveränderte Nachdrucke Modellierung (DE-588)4170297-9 gnd rswk-swf Simulation (DE-588)4055072-2 gnd rswk-swf Dynamisches System (DE-588)4013396-5 gnd rswk-swf Mathematische Methode (DE-588)4155620-3 gnd rswk-swf Diskretes Ereignissystem (DE-588)4196828-1 gnd rswk-swf Dynamisches System (DE-588)4013396-5 s Diskretes Ereignissystem (DE-588)4196828-1 s Modellierung (DE-588)4170297-9 s Simulation (DE-588)4055072-2 s DE-604 Mathematische Methode (DE-588)4155620-3 s 1\p DE-604 Prähofer, Herbert Verfasser aut Kim, Tag Gon Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008904620&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Zeigler, Bernard P. 1940- Prähofer, Herbert Kim, Tag Gon Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems Modellierung (DE-588)4170297-9 gnd Simulation (DE-588)4055072-2 gnd Dynamisches System (DE-588)4013396-5 gnd Mathematische Methode (DE-588)4155620-3 gnd Diskretes Ereignissystem (DE-588)4196828-1 gnd
subject_GND	(DE-588)4170297-9 (DE-588)4055072-2 (DE-588)4013396-5 (DE-588)4155620-3 (DE-588)4196828-1
title	Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems
title_alt	Theory of modelling and simulation
title_auth	Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems
title_exact_search	Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems
title_full	Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems Bernard P. Zeigler ; Herbert Praehofer ; Tag Gon Kim
title_fullStr	Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems Bernard P. Zeigler ; Herbert Praehofer ; Tag Gon Kim
title_full_unstemmed	Theory of modeling and simulation integrating discrete event and continuous complex dynamic systems Bernard P. Zeigler ; Herbert Praehofer ; Tag Gon Kim
title_short	Theory of modeling and simulation
title_sort	theory of modeling and simulation integrating discrete event and continuous complex dynamic systems
title_sub	integrating discrete event and continuous complex dynamic systems
topic	Modellierung (DE-588)4170297-9 gnd Simulation (DE-588)4055072-2 gnd Dynamisches System (DE-588)4013396-5 gnd Mathematische Methode (DE-588)4155620-3 gnd Diskretes Ereignissystem (DE-588)4196828-1 gnd
topic_facet	Modellierung Simulation Dynamisches System Mathematische Methode Diskretes Ereignissystem
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008904620&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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