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Stability and Control of Large-Scale Dynamical Systems: A Vector Dissipative Systems Approach Book

Stability and Control of Large-Scale Dynamical Systems: A Vector Dissipative Systems Approach
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Stability and Control of Large-Scale Dynamical Systems: A Vector Dissipative Systems Approach, Modern complex large-scale dynamical systems exist in virtually every aspect of science and engineering, and are associated with a wide variety of physical, technological, environmental, and social phenomena, including aerospace, power, communications, an, Stability and Control of Large-Scale Dynamical Systems: A Vector Dissipative Systems Approach
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  • Stability and Control of Large-Scale Dynamical Systems: A Vector Dissipative Systems Approach
  • Written by author Wassim M. Haddad
  • Published by Princeton University Press, 12/4/2011
  • Modern complex large-scale dynamical systems exist in virtually every aspect of science and engineering, and are associated with a wide variety of physical, technological, environmental, and social phenomena, including aerospace, power, communications, an
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Preface xiii

CHAPTER 1. Introduction 1

1.1 Large-Scale Interconnected Dynamical Systems 1

1.2 A Brief Outline of the Monograph 5

CHAPTER 2. Stability Theory via Vector Lyapunov Functions 9

2.1 Introduction 9

2.2 Notation and Definitions 9

2.3 Quasi-Monotone and Essentially Nonnegative Vector Fields 10

2.4 Generalized Differential Inequalities 14

2.5 Stability Theory via Vector Lyapunov Functions 18

2.6 Discrete-Time Stability Theory via Vector Lyapunov Functions 34

CHAPTER 3. Large-Scale Continuous-Time Interconnected Dynamical Systems 45

3.1 Introduction 45

3.2 Vector Dissipativity Theory for Large-Scale Nonlinear Dynamical Systems 46

3.3 Extended Kalman-Yakubovich-Popov Conditions for Large- Scale Nonlinear Dynamical Systems 61

3.4 Specialization to Large-Scale Linear Dynamical Systems 68

3.5 Stability of Feedback Interconnections of Large-Scale Nonlinear Dynamical Systems 71

CHAPTER 4. Thermodynamic Modeling of Large-Scale Interconnected Systems 75

4.1 Introduction 75

4.2 Conservation of Energy and the First Law

of Thermodynamics 75

4.3 Nonconservation of Entropy and the Second Law of Thermodynamics 79

4.4 Semistability and Large-Scale Systems 82

4.5 Energy Equipartition 86

4.6 Entropy Increase and the Second Law of Thermodynamics 88

4.7 Thermodynamic Models with Linear Energy Exchange 90

CHAPTER 5. Control of Large-Scale Dynamical Systems via Vector Lyapunov Functions 93

5.1 Introduction 93

5.2 Control Vector Lyapunov Functions 94

5.3 Stability Margins, Inverse Optimality, and Vector Dissipativity 99

5.4 Decentralized Control for Large-Scale Nonlinear Dynamical Systems 102

CHAPTER 6. Finite-Time Stabilization of Large-Scale Systems via Control Vector Lyapunov Functions 107

6.1 Introduction 107

6.2 Finite-Time Stability via Vector Lyapunov Functions 108

6.3 Finite-Time Stabilization of Large-Scale Dynamical Systems 114

6.4 Finite-Time Stabilization for Large-Scale Homogeneous Systems 119

6.5 Decentralized Control for Finite-Time Stabilization of Large-Scale Systems 121

CHAPTER 7. Coordination Control for Multiagent Interconnected Systems 127

7.1 Introduction 127

7.2 Stability and Stabilization of Time-Varying Sets 129

7.3 Control Design for Multivehicle Coordinated Motion 135

7.4 Stability and Stabilization of Time-Invariant Sets 141

7.5 Control Design for Static Formations 144

7.6 Obstacle Avoidance in Multivehicle Coordination 145

CHAPTER 8. Large-Scale Discrete-Time Interconnected Dynamical Systems 153

8.1 Introduction 153

8.2 Vector Dissipativity Theory for Discrete-Time Large-Scale Nonlinear Dynamical Systems 154

8.3 Extended Kalman-Yakubovich-Popov Conditions for Discrete- Time Large-Scale Nonlinear Dynamical Systems 168

8.4 Specialization to Discrete-Time Large-Scale Linear Dynamical Systems 173

8.5 Stability of Feedback Interconnections of Discrete-Time Large-Scale Nonlinear Dynamical Systems 177

CHAPTER 9. Thermodynamic Modeling for Discrete-Time Large-Scale Dynamical Systems 181

9.1 Introduction 181

9.2 Conservation of Energy and the First Law of Thermodynamics 182

9.3 Nonconservation of Entropy and the Second Law of Thermodynamics 187

9.4 Nonconservation of Ectropy 189

9.5 Semistability of Discrete-Time Thermodynamic Models 191

9.6 Entropy Increase and the Second Law of Thermodynamics 198

9.7 Thermodynamic Models with Linear Energy Exchange 200

CHAPTER 10. Large-Scale Impulsive Dynamical Systems 211

10.1 Introduction 211

10.2 Stability of Impulsive Systems via Vector Lyapunov Functions 213

10.3 Vector Dissipativity Theory for Large-Scale Impulsive Dynamical Systems 224

10.4 Extended Kalman-Yakubovich-Popov Conditions for Large- Scale Impulsive Dynamical Systems 249

10.5 Specialization to Large-Scale Linear Impulsive Dynamical Systems 259

10.6 Stability of Feedback Interconnections of Large-Scale Impulsive Dynamical Systems 264

CHAPTER 11. Control Vector Lyapunov Functions for Large-Scale Impulsive Systems 271

11.1 Introduction 271

11.2 Control Vector Lyapunov Functions for Impulsive Systems 272

11.3 Stability Margins and Inverse Optimality 279

11.4 Decentralized Control for Large-Scale Impulsive Dynamical Systems 284

CHAPTER 12. Finite-Time Stabilization of Large-Scale Impulsive Dynamical Systems 289

12.1 Introduction 289

12.2 Finite-Time Stability of Impulsive Dynamical Systems 289

12.3 Finite-Time Stabilization of Impulsive Dynamical Systems 297

12.4 Finite-Time Stabilizing Control for Large-Scale Impulsive Dynamical Systems 300

CHAPTER 13. Hybrid Decentralized Maximum Entropy Control for Large-Scale Systems 305

13.1 Introduction 305

13.2 Hybrid Decentralized Control and Large-Scale Impulsive Dynamical Systems 306

13.3 Hybrid Decentralized Control for Large-Scale Dynamical Systems 313

13.4 Interconnected Euler-Lagrange Dynamical Systems 319

13.5 Hybrid Decentralized Control Design 323

13.6 Quasi-Thermodynamic Stabilization and Maximum Entropy Control 327

13.7 Hybrid Decentralized Control for Combustion Systems 335

13.8 Experimental Verification of Hybrid Decentralized Controller 341

CHAPTER 14. Conclusion 351

Bibliography 353

Index 367


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