John Wiley & Sons Robust Control Optimization with Metaheuristics Cover In the automotive industry, a Control Engineer must design a unique control law that is then tested .. Product #: 978-1-78630-042-3 Regular price: $157.94 $157.94 In Stock

Robust Control Optimization with Metaheuristics

Feyel, Philippe

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1. Edition January 2017
448 Pages, Hardcover
Wiley & Sons Ltd

ISBN: 978-1-78630-042-3
John Wiley & Sons

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In the automotive industry, a Control Engineer must design a unique control law that is then tested and validated on a single prototype with a level of reliability high enough to to meet a number of complex specifications on various systems. In order to do this, the Engineer uses an experimental iterative process (Trial and Error phase) which relies heavily on his or her experience. This book looks to optimise the methods for synthesising servo controllers ny making them more direct and thus quicker to design. This is achieved by calculating a final controller to directly tackle the high-end system specs.

Preface ix

Introduction and Motivations xi

Chapter 1. Metaheuristics for Controller Optimization 1

1.1. Introduction 1

1.2. Evolutionary approaches using differential evolution 2

1.2.1. Standard version 2

1.2.2. Perturbed version 7

1.3. Swarm approaches 8

1.3.1. Particle swarm optimization algorithm 8

1.3.2. Quantum particle swarm algorithm 14

1.3.3. Artificial bee colony optimization algorithm 20

1.3.4. Cuckoo search algorithm 25

1.3.5. Firefly algorithm 31

1.4. Summary 33

Chapter 2. Reformulation of Robust Control Problems for Stochastic Optimization 35

2.1. Introduction 35

2.2. H infinity synthesis 35

2.2.1. Full H infinity synthesis 35

2.2.2. Fixed-structure H infinity synthesis 45

2.2.3. Formulating H infinity synthesis for stochastic optimization 67

2.2.4. Conclusion 105

2.3. mu-Synthesis 105

2.3.1. The problem of performance robustness 105

2.3.2. mu-Synthesis 110

2.4. LPV/LFT synthesis 140

2.4.1. Introduction 140

2.4.2. The LPV/LFT controller synthesis problem 141

2.4.3. Reformulation for stochastic optimization 147

Chapter 3. Optimal Tuning of Structured and Robust H infinity Controllers Against High-level Requirements 171

3.1. Introduction and motivations 171

3.2. Loop-shaping H infinity synthesis 180

3.2.1. Approach principle 180

3.2.2. Generalized gain and phase margins 184

3.2.3. Four-block interpretation of the method 185

3.2.4. Practical implementation 186

3.2.5. Implementation of controllers 190

3.3. A generic method for the declination of requirements 194

3.3.1. General principles 194

3.3.2. Special cases 196

3.3.3. Management of requirement priority level 197

3.4. Optimal tuning of weighting functions 198

3.4.1. Optimization on nominal plant 198

3.4.2. Multiple plant optimization 202

3.4.3. Applicative example - inertial stabilization of line of sight 207

3.5. Optimal tuning of the fixed-structure and fixed-order final controller 238

3.5.1. Introduction 238

3.5.2. Toward eliminating weighting functions 240

3.5.3. Extensions to the approach 259

3.5.4. Link with standard control problems 277

Chapter 4. HinfStoch: A Toolbox for Structured and Robust Controller Computation Based on Stochastic Optimization 279

4.1. Introduction 279

4.2. Structured multiple plant H infinity synthesis 280

4.2.1. Principle 280

4.2.2. Formalism 280

4.3. Structured mu-synthesis 284

4.3.1. Principle 284

4.3.2. Formalism 285

4.4. Structured LPV/LFT synthesis 288

4.4.1. Principle 288

4.4.2. Formalism 289

4.5. Structured and robust synthesis against high-level requirements with HinfStoch_ControllerTuning 292

4.5.1. Principle 292

4.5.2. Formalism 293

4.5.3. Examples 311

Appendices 351

Appendix A. Notions of Coprime Factorizations 353

Appendix B. Examples of LFT Form Used for Uncertain Systems 359

Appendix C. LFT Form Use of an Electromechanical System with Uncertain Flexible Modes 365

Appendix D. FTM (1D) Computation from a Time Signal 383

Appendix E. Choice of Iteration Number for CompLeib Tests 385

Appendix F. PDE versus DE 393

Bibliography 399

Index 407
Philippe Feyel is an R&D Engineer for the high-tech company Sagem Défense Sécurité, part of the defence and security business of the SAFRAN group, in Paris, France.