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The Resource Continuous system simulation, François E. Cellier, Ernesto Kofman

Continuous system simulation, François E. Cellier, Ernesto Kofman

Label
Continuous system simulation
Title
Continuous system simulation
Statement of responsibility
François E. Cellier, Ernesto Kofman
Creator
Contributor
Subject
Language
eng
Summary
"This book provides an introduction to modern methods for computer simulation of physical systems involving continuous variables. Particular emphasis is placed on the use of simulation languages and other software tools widely used in the simulation field. A simple simulation language (provided on 3.5 disk with the book) is used. Commercially available software is also described and applied. Case studies are included and simulation model validation is covered in detail. Real time simulation applications are also discussed."--Publisher's website
Cataloging source
UUM
http://library.link/vocab/creatorName
Cellier, François E
Dewey number
620.00113
Illustrations
illustrations
Index
index present
LC call number
T57.62
LC item number
.C263 2006
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/relatedWorkOrContributorName
Kofman, Ernesto
http://library.link/vocab/subjectName
  • Computer simulation
  • Simulation methods
  • Mathematical models
  • Mathematics
Label
Continuous system simulation, François E. Cellier, Ernesto Kofman
Instantiates
Publication
Bibliography note
Includes bibliographical references and indexes
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • 8
  • 147
  • 4.12
  • Step-size and Order Control
  • 150
  • 4.13
  • The Startup Problem
  • 154
  • 4.14
  • The Readout Problem
  • 156
  • 1.3
  • 5
  • Second Derivative Systems
  • 165
  • 5.2
  • Conversion of Second-derivative Models to State-space Form
  • 168
  • 5.3
  • Velocity-free Models
  • 168
  • 5.4
  • Time and Again
  • Linear Velocity Models
  • 170
  • 5.5
  • Nonlinear Velocity Models
  • 171
  • 5.6
  • Stability and Damping of Godunov Scheme
  • 172
  • 5.7
  • Explicit and Implicit Godunov Algorithms of Different Orders
  • 11
  • 175
  • 5.8
  • The Newmark Algorithm
  • 179
  • 6
  • Partial Differential Equations
  • 191
  • 6.2
  • The Method of Lines
  • 192
  • 1.4
  • 6.3
  • Parabolic PDEs
  • 198
  • 6.4
  • Hyperbolic PDEs
  • 211
  • 6.5
  • Shock Waves
  • 219
  • 6.6
  • Simulation as a Problem Solving Tool
  • Upwind Discretization
  • 228
  • 6.7
  • Grid-width Control
  • 230
  • 6.8
  • PDEs in Multiple Space Dimensions
  • 231
  • 6.9
  • Elliptic PDEs and Invariant Embedding
  • 14
  • 233
  • 6.10
  • Finite Element Approximations
  • 236
  • 7
  • Differential Algebraic Equations
  • 253
  • 7.2
  • Causalization of Equations
  • 256
  • 1.5
  • 7.3
  • Algebraic Loops
  • 259
  • 7.4
  • The Tearing Algorithm
  • 263
  • 7.5
  • The Relaxation Algorithm
  • 271
  • 7.6
  • Simulation Software: Today and Tomorrow
  • Structural Singularities
  • 277
  • 7.7
  • Structural Singularity Elimination
  • 281
  • 7.8
  • The Solvability Issue
  • 297
  • 8
  • Differential Algebraic Equation Solvers
  • 15
  • 319
  • 8.2
  • Multi-step Formulae
  • 322
  • 8.3
  • Single-step Formulae
  • 332
  • 8.4
  • DASSL
  • 337
  • 1
  • 2
  • 8.5
  • Inline Integration
  • 341
  • 8.6
  • Inlining Implicit Runge-Kutta Algorithms
  • 353
  • 8.7
  • Stiffly Stable Step-size Control of Radau IIA
  • 355
  • 8.8
  • Basic Principles of Numerical Integration
  • Stiffly Stable Step-size Control of Lobatto IIIC
  • 360
  • 8.9
  • Inlining Partial Differential Equations
  • 362
  • 8.10
  • Overdetermined DAEs
  • 368
  • 8.11
  • Electronic Circuit Simulators
  • 25
  • 377
  • 8.12
  • Multibody System Dynamics Simulators
  • 382
  • 8.13
  • Chemical Process Dynamics Simulators
  • 384
  • 9
  • Simulation of Discontinuous Systems
  • 397
  • 2.2
  • 9.2
  • Basic Difficulties
  • 399
  • 9.3
  • Time Events
  • 407
  • 9.4
  • Simulation of Sampled-data Systems
  • 409
  • 9.5
  • The Approximation Accuracy
  • State Events
  • 411
  • 9.5.1
  • Multiple Zero Crossings
  • 412
  • 9.5.2
  • Single Zero Crossings, Single-step Algorithms
  • 414
  • 9.5.3
  • Single Zero Crossings, Multi-step Algorithms
  • 26
  • 419
  • 9.5.4
  • Non-essential State Events
  • 420
  • 9.6
  • Consistent Initial Conditions
  • 421
  • 9.7
  • Object-oriented Descriptions of Discontinuities
  • 425
  • 2.3
  • 9.7.1
  • The Computational Causality of if-Statements
  • 427
  • 9.7.2
  • Multi-valued Functions
  • 429
  • 9.8
  • The Switch Equation
  • 430
  • 9.9
  • Euler Integration
  • Ideal Diodes and Parameterized Curve Descriptions
  • 433
  • 9.10
  • Variable Structure Models
  • 439
  • 9.11
  • Mixed-mode Integration
  • 443
  • 9.12
  • State Transition Diagrams
  • 31
  • 447
  • 9.13
  • Petri Nets
  • 454
  • 10
  • Real-time Simulation
  • 479
  • 10.2
  • The Race Against Time
  • 482
  • 2.4
  • 10.3
  • Suitable Numerical Integration Methods
  • 483
  • 10.4
  • Linearly Implicit Methods
  • 486
  • 10.5
  • Multi-rate Integration
  • 489
  • 10.6
  • Introduction, Scope, Definitions
  • The Domain of Numerical Stability
  • Inline Integration
  • 492
  • 10.7
  • Mixed-mode Integration
  • 495
  • 10.8
  • Discontinuous Systems
  • 497
  • 10.9
  • Simulation Architecture
  • 34
  • 499
  • 10.10
  • Overruns
  • 500
  • 11
  • Discrete Event Simulation
  • 519
  • 11.2
  • Space Discretization: A Simple Example
  • 521
  • 2.5
  • 11.3
  • Discrete Event Systems and DEVS
  • 524
  • 11.4
  • Coupled DEVS Models
  • 529
  • 11.5
  • Simulation of DEVS Models
  • 531
  • 11.6
  • The Newton Iteration
  • DEVS and Continuous System Simulation
  • 535
  • 11.7
  • Quantized State Systems
  • 542
  • 12
  • Quantization-based Integration
  • 555
  • 12.2
  • Convergence, Accuracy, and Stability in QSS
  • 42
  • 558
  • 12.3
  • Choosing Quantum and Hysteresis Width
  • 562
  • 12.4
  • Input Signals in the QSS Method
  • 564
  • 12.5
  • Startup and Output Interpolation
  • 568
  • 2.6
  • 12.6
  • Second-order QSS
  • 570
  • 12.7
  • Algebraic Loops in QSS Methods
  • 582
  • 12.8
  • DAE Simulation with QSS Methods
  • 588
  • 12.9
  • Semi-analytic Algorithms
  • Discontinuity Handling
  • 595
  • 12.10
  • Real-time Simulation
  • 609
  • 12.11
  • Open Problems in Quantization-based Methods
  • 615
  • 46
  • 2.7
  • Spectral Algorithms
  • 1
  • 48
  • 3
  • Single-step Integration Methods
  • 57
  • 3.2
  • Runge-Kutta Algorithms
  • 59
  • 3.3
  • Stability Domains of RK Algorithms
  • 65
  • 1.1
  • 3.4
  • Stiff Systems
  • 67
  • 3.5
  • Extrapolation Techniques
  • 69
  • 3.6
  • Marginally Stable Systems
  • 73
  • 3.7
  • Modeling and Simulation: A Circuit Example
  • Backinterpolation Methods
  • 76
  • 3.8
  • Accuracy Considerations
  • 84
  • 3.9
  • Step-size and Order Control
  • 101
  • 4
  • Multi-step Integration Methods
  • 1
  • 117
  • 4.2
  • Newton-Gregory Polynomials
  • 118
  • 4.3
  • Numerical Integration Through Polynomial Extrapolation
  • 121
  • 4.4
  • Explicit Adams-Bashforth Formulae
  • 122
  • 1.2
  • 4.5
  • Implicit Adams-Moulton Formulae
  • 125
  • 4.6
  • Adams-Bashforth-Moulton Predictor-Corrector Formulae
  • 127
  • 4.7
  • Backward Difference Formulae
  • 128
  • 4.8
  • Modeling vs. Simulation
  • Nystrom and Milne Algorithms
  • 131
  • 4.9
  • In Search for Stiffly-stable Methods
  • 133
  • 4.10
  • High-order Backward Difference Formulae
  • 142
  • 4.11
  • Newton Iteration
Control code
69173870
Dimensions
25 cm
Extent
xxi, 643 pages
Isbn
9780387261027
Isbn Type
(hbk.)
Lccn
2005936516
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Other control number
9780387261027
Other physical details
illustrations
System control number
(OCoLC)69173870
Label
Continuous system simulation, François E. Cellier, Ernesto Kofman
Publication
Bibliography note
Includes bibliographical references and indexes
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • 8
  • 147
  • 4.12
  • Step-size and Order Control
  • 150
  • 4.13
  • The Startup Problem
  • 154
  • 4.14
  • The Readout Problem
  • 156
  • 1.3
  • 5
  • Second Derivative Systems
  • 165
  • 5.2
  • Conversion of Second-derivative Models to State-space Form
  • 168
  • 5.3
  • Velocity-free Models
  • 168
  • 5.4
  • Time and Again
  • Linear Velocity Models
  • 170
  • 5.5
  • Nonlinear Velocity Models
  • 171
  • 5.6
  • Stability and Damping of Godunov Scheme
  • 172
  • 5.7
  • Explicit and Implicit Godunov Algorithms of Different Orders
  • 11
  • 175
  • 5.8
  • The Newmark Algorithm
  • 179
  • 6
  • Partial Differential Equations
  • 191
  • 6.2
  • The Method of Lines
  • 192
  • 1.4
  • 6.3
  • Parabolic PDEs
  • 198
  • 6.4
  • Hyperbolic PDEs
  • 211
  • 6.5
  • Shock Waves
  • 219
  • 6.6
  • Simulation as a Problem Solving Tool
  • Upwind Discretization
  • 228
  • 6.7
  • Grid-width Control
  • 230
  • 6.8
  • PDEs in Multiple Space Dimensions
  • 231
  • 6.9
  • Elliptic PDEs and Invariant Embedding
  • 14
  • 233
  • 6.10
  • Finite Element Approximations
  • 236
  • 7
  • Differential Algebraic Equations
  • 253
  • 7.2
  • Causalization of Equations
  • 256
  • 1.5
  • 7.3
  • Algebraic Loops
  • 259
  • 7.4
  • The Tearing Algorithm
  • 263
  • 7.5
  • The Relaxation Algorithm
  • 271
  • 7.6
  • Simulation Software: Today and Tomorrow
  • Structural Singularities
  • 277
  • 7.7
  • Structural Singularity Elimination
  • 281
  • 7.8
  • The Solvability Issue
  • 297
  • 8
  • Differential Algebraic Equation Solvers
  • 15
  • 319
  • 8.2
  • Multi-step Formulae
  • 322
  • 8.3
  • Single-step Formulae
  • 332
  • 8.4
  • DASSL
  • 337
  • 1
  • 2
  • 8.5
  • Inline Integration
  • 341
  • 8.6
  • Inlining Implicit Runge-Kutta Algorithms
  • 353
  • 8.7
  • Stiffly Stable Step-size Control of Radau IIA
  • 355
  • 8.8
  • Basic Principles of Numerical Integration
  • Stiffly Stable Step-size Control of Lobatto IIIC
  • 360
  • 8.9
  • Inlining Partial Differential Equations
  • 362
  • 8.10
  • Overdetermined DAEs
  • 368
  • 8.11
  • Electronic Circuit Simulators
  • 25
  • 377
  • 8.12
  • Multibody System Dynamics Simulators
  • 382
  • 8.13
  • Chemical Process Dynamics Simulators
  • 384
  • 9
  • Simulation of Discontinuous Systems
  • 397
  • 2.2
  • 9.2
  • Basic Difficulties
  • 399
  • 9.3
  • Time Events
  • 407
  • 9.4
  • Simulation of Sampled-data Systems
  • 409
  • 9.5
  • The Approximation Accuracy
  • State Events
  • 411
  • 9.5.1
  • Multiple Zero Crossings
  • 412
  • 9.5.2
  • Single Zero Crossings, Single-step Algorithms
  • 414
  • 9.5.3
  • Single Zero Crossings, Multi-step Algorithms
  • 26
  • 419
  • 9.5.4
  • Non-essential State Events
  • 420
  • 9.6
  • Consistent Initial Conditions
  • 421
  • 9.7
  • Object-oriented Descriptions of Discontinuities
  • 425
  • 2.3
  • 9.7.1
  • The Computational Causality of if-Statements
  • 427
  • 9.7.2
  • Multi-valued Functions
  • 429
  • 9.8
  • The Switch Equation
  • 430
  • 9.9
  • Euler Integration
  • Ideal Diodes and Parameterized Curve Descriptions
  • 433
  • 9.10
  • Variable Structure Models
  • 439
  • 9.11
  • Mixed-mode Integration
  • 443
  • 9.12
  • State Transition Diagrams
  • 31
  • 447
  • 9.13
  • Petri Nets
  • 454
  • 10
  • Real-time Simulation
  • 479
  • 10.2
  • The Race Against Time
  • 482
  • 2.4
  • 10.3
  • Suitable Numerical Integration Methods
  • 483
  • 10.4
  • Linearly Implicit Methods
  • 486
  • 10.5
  • Multi-rate Integration
  • 489
  • 10.6
  • Introduction, Scope, Definitions
  • The Domain of Numerical Stability
  • Inline Integration
  • 492
  • 10.7
  • Mixed-mode Integration
  • 495
  • 10.8
  • Discontinuous Systems
  • 497
  • 10.9
  • Simulation Architecture
  • 34
  • 499
  • 10.10
  • Overruns
  • 500
  • 11
  • Discrete Event Simulation
  • 519
  • 11.2
  • Space Discretization: A Simple Example
  • 521
  • 2.5
  • 11.3
  • Discrete Event Systems and DEVS
  • 524
  • 11.4
  • Coupled DEVS Models
  • 529
  • 11.5
  • Simulation of DEVS Models
  • 531
  • 11.6
  • The Newton Iteration
  • DEVS and Continuous System Simulation
  • 535
  • 11.7
  • Quantized State Systems
  • 542
  • 12
  • Quantization-based Integration
  • 555
  • 12.2
  • Convergence, Accuracy, and Stability in QSS
  • 42
  • 558
  • 12.3
  • Choosing Quantum and Hysteresis Width
  • 562
  • 12.4
  • Input Signals in the QSS Method
  • 564
  • 12.5
  • Startup and Output Interpolation
  • 568
  • 2.6
  • 12.6
  • Second-order QSS
  • 570
  • 12.7
  • Algebraic Loops in QSS Methods
  • 582
  • 12.8
  • DAE Simulation with QSS Methods
  • 588
  • 12.9
  • Semi-analytic Algorithms
  • Discontinuity Handling
  • 595
  • 12.10
  • Real-time Simulation
  • 609
  • 12.11
  • Open Problems in Quantization-based Methods
  • 615
  • 46
  • 2.7
  • Spectral Algorithms
  • 1
  • 48
  • 3
  • Single-step Integration Methods
  • 57
  • 3.2
  • Runge-Kutta Algorithms
  • 59
  • 3.3
  • Stability Domains of RK Algorithms
  • 65
  • 1.1
  • 3.4
  • Stiff Systems
  • 67
  • 3.5
  • Extrapolation Techniques
  • 69
  • 3.6
  • Marginally Stable Systems
  • 73
  • 3.7
  • Modeling and Simulation: A Circuit Example
  • Backinterpolation Methods
  • 76
  • 3.8
  • Accuracy Considerations
  • 84
  • 3.9
  • Step-size and Order Control
  • 101
  • 4
  • Multi-step Integration Methods
  • 1
  • 117
  • 4.2
  • Newton-Gregory Polynomials
  • 118
  • 4.3
  • Numerical Integration Through Polynomial Extrapolation
  • 121
  • 4.4
  • Explicit Adams-Bashforth Formulae
  • 122
  • 1.2
  • 4.5
  • Implicit Adams-Moulton Formulae
  • 125
  • 4.6
  • Adams-Bashforth-Moulton Predictor-Corrector Formulae
  • 127
  • 4.7
  • Backward Difference Formulae
  • 128
  • 4.8
  • Modeling vs. Simulation
  • Nystrom and Milne Algorithms
  • 131
  • 4.9
  • In Search for Stiffly-stable Methods
  • 133
  • 4.10
  • High-order Backward Difference Formulae
  • 142
  • 4.11
  • Newton Iteration
Control code
69173870
Dimensions
25 cm
Extent
xxi, 643 pages
Isbn
9780387261027
Isbn Type
(hbk.)
Lccn
2005936516
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Other control number
9780387261027
Other physical details
illustrations
System control number
(OCoLC)69173870

Library Locations

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