This book presents correct-by-design control techniques for
switching systems, using different methods of stability analysis.
Switching systems are increasingly used in the electronics and
mechanical industries; in power electronics and the automotive
industry, for example. This is due to their flexibility and
simplicity in accurately controlling industrial mechanisms. By
adopting appropriate control rules, we can steer a switching system
to a region centered at a desired equilibrium point, while avoiding
‚unsafe‘ regions of parameter saturation.
The authors explain various correct-by-design methods for control
synthesis, using different methods of stability and invariance
analysis. They also provide several applications of these methods
to industrial examples of power electronics.
Contents
1. Control Theory: Basic Concepts.
2. Sampled Switched Systems.
3. Safety Controllers.
4. Stability Controllers.
5. Application to Multilevel Converters.
6. Other Issues: Reachability, Sensitivity, Robustness and
Nonlinearity.
About the Authors
Laurent Fribourg is head of the LSV (Laboratoire
Spécification et Vérification) and Scientific Coordinator
of the Institut Farman, Institut Fédératif de Recherche
CNRS, which brings together the expertise of five laboratories from
ENS Cachan, in France, in the fields of modeling, simulation and
validation of complex systems. He has published over 70 articles in
international journals and reviewed proceedings of international
conferences, in the domain of the theory of formal methods and
their industrial applications.
Romain Soulat is in the third year of his doctorate at the LSV at
ENS Cachan in France, under the supervision of Laurent Fribourg. He
is working on the modeling and verification of hybrid systems. In
particular, his interests concern robustness in scheduling problems
– especially as part of a collaborative project with EADS
Astrium on the verification of a component in the launcher for the
future Ariane 6 rocket. He has published 5 articles in reviewed
proceedings of international conferences.
Inhaltsverzeichnis
PREFACE ix
ACKNOWLEDGMENTS xi
INTRODUCTION xiii
CHAPTER 1. CONTROL THEORY: BASIC CONCEPTS 1
1.1. Model of control systems 1
1.2. Digital control systems 3
1.2.1. Digitization 3
1.2.2. Quantization 6
1.2.3. Switching 6
1.3. Control of switched systems using invariant sets 8
1.3.1. Controlled invariants 9
1.3.2. Safety control problem 9
1.3.3. Stability control problem 10
1.3.4. Other controllers 11
1.4. Notes 11
CHAPTER 2. SAMPLED SWITCHED SYSTEMS 13
2.1. Model 13
2.2. Illustrative examples 18
2.3. Zonotopes 21
2.4. Notes 23
CHAPTER 3. SAFETY CONTROLLERS 25
3.1. Backward fixed point computation (direct
approach) 26
3.2. Approximate bisimulation (indirect approach) 29
3.3. Application to a three-cell Boost DC-DC
converter 35
3.3.1. Model 35
3.3.2. Direct method 37
3.3.3. Indirect method 37
3.4. Notes 40
CHAPTER 4. STABILITY CONTROLLERS 41
4.1. Motivation 42
4.2. Preliminaries 42
4.2.1. Control induced by the decomposition 45
4.3. Decomposition function 46
4.3.1. Basic procedure 46
4.3.2. Enhancement for safety 48
4.4. Limit cycles 52
4.4.1. Discussion of the assumptions H1 and H2 53
4.4.2. Illustrative examples 54
4.5. Implementation 58
4.6. Notes 59
CHAPTER 5. APPLICATION TO MULTILEVEL CONVERTERS
61
5.1. Multilevel converters 62
5.2. Application of the decomposition procedure 62
5.2.1. Five-level converter 63
5.2.2. Seven-level converter 67
5.3. Physical experimentations 70
5.4. Notes 73
CHAPTER 6. OTHER ISSUES: REACHABILITY, SENSITIVITY,
ROBUSTNESS AND NONLINEARITY 75
6.1. Reachability control 75
6.2. Sensitivity 78
6.3. Robust safety control 79
6.4. Nonlinearity 82
6.5. Notes 87
CONCLUSIONS AND PERSPECTIVES 89
APPENDIX 1. SUFFICIENT CONDITION OF DECOMPOSITION 93
APPENDIX 2. APPLICATIONS OF THE ENHANCED DECOMPOSITION PROCEDURE
97
APPENDIX 3. PROOF OF THEOREM 4.3 103
APPENDIX 4. EXAMPLE WITH |R*Delta| = infinity 107
APPENDIX 5. CODE 109
BIBLIOGRAPHY 121
INDEX 127
Über den Autor
Laurent Fribourg is head of the LSV (Laboratoire
Spécification et Vérification) and Scientific Coordinator
of the Institut Farman, Institut Fédératif de Recherche
CNRS, which brings together the expertise of five laboratories from
ENS Cachan, in France, in the fields of modeling, simulation and
validation of complex systems. He has published over 70 articles in
international journals and reviewed proceedings of international
conferences, in the domain of the theory of formal methods and
their applications.
Romain Soulat is in the third year of his doctorate at
the LSV at ENS Cachan in France, under the supervision of Laurent
Fribourg. He is working on the modeling and verification of hybrid
systems. In particular, his interests concern robustness in
scheduling problems – especially as part of a collaborative
project with EADS Astrium on the verification of a component in the
launcher for the future Ariane 6 rocket. He has published 5
articles in reviewed proceedings of international conferences.
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