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Fault-tolerant control theory is a well-studied topic but the use of the sets in detection, isolation and/or reconfiguration is rather tangential. The authors of this book propose a systematic analysis of the set-theoretic elements and devise approaches which exploit advanced elements within the field. The main idea is to translate fault detection and isolation conditions into those conditions involving sets. Furthermore, these are to be computed efficiently using positive invariance and reachability notions. Constraints imposed by exact fault control are used to define feasible references…mehr
Fault-tolerant control theory is a well-studied topic but the use of the sets in detection, isolation and/or reconfiguration is rather tangential. The authors of this book propose a systematic analysis of the set-theoretic elements and devise approaches which exploit advanced elements within the field. The main idea is to translate fault detection and isolation conditions into those conditions involving sets. Furthermore, these are to be computed efficiently using positive invariance and reachability notions. Constraints imposed by exact fault control are used to define feasible references (which impose persistent excitation and, thus, non-convex feasible sets). Particular attention is given to the reciprocal influences between fault detection and isolation on the one hand, and control reconfiguration on the other. Contents 1. State of the Art in Fault-tolerant Control 2. Fault Detection and Isolation in Multisensor Systems 3. Residual Generation and Reference Governor Design 4. Reconfiguration of the Control Mechanism for Fault-tolerant Control 5. Related Problems and Applications About the Authors Florin Stoican received a B.E. degree from the "Politehnica" University of Bucharest, Romania, in 2008 and his PhD from SUPELEC, France in 2011. He held an ERCIM Postdoctoral Fellowship with NTNU Trondheim, Norway, in 2012, and is currently Assistant Professor at "Politehnica" University of Bucharest. His main interest is the fault tolerant control of dynamical systems through the prism of set theoretic elements. His current work involves further results in set theory and constrained optimization problems. Sorin Olaru received an M.S. degree from the "Politehnica" University of Bucharest, Romania, and both his PhD and Habilitation from University Paris XI, France, being awarded the European Commission Archimedes Prize in 2002. Since 2001 he has held different positions at INRIA and SUPELEC in France and visiting appointments at the University of Newcastle, Australia and NTNU Trondheim, Norway. He is currently Professor at SUPELEC, a member of the INRIA Disco team and senior member of IEEE. His research interests include optimization-based control design and the set-theoretic characterization of constrained dynamical systems.
Abdelhamid Mellouk, UPEC, LiSSi Lab, Paris -Est University, Paris, France. Hai Anh Tran, UPEC, LiSSi Lab, Paris -Est University, Paris, France. Said Hoceini, UPEC, LiSSi Lab, Paris -Est University, Paris, France.
Inhaltsangabe
Preface ix Introduction xi Chapter 1. State of the Art in Fault-tolerant Control 1 1.1. Fault detection and isolation 4 1.2. Control reconfiguration 6 1.3. Sets in control 9 1.4. Existing set-theoretic methods in FTC 22 Chapter 2. Fault Detection and Isolation in Multisensor Systems 27 2.1. Problem statement 28 2.2. Fault detection and isolation 35 2.3. Recovery mechanism 45 Chapter 3. Residual Generation and Reference Governor Design 55 3.1. Residual signals 56 3.2. Reference governor synthesis 68 Chapter 4. Reconfiguration of the Control Mechanism for Fault-tolerant Control 73 4.1. Active FTC with fix gain feedback 76 4.2. Active FTC with MPC control 89 4.3. Passive FTC control 96 Chapter 5. Related Problems and Applications 103 5.1. Set theoretic issues 103 5.2. Illustrative examples 113 Conclusions 133 Bibliography 139 Index 151
A general view on fault tolerant control within the set-theoretic framework Fault detection and isolation conditions Persisting exciting reference generation for exact fault detection and isolation Reconfiguration of the control mechanism for exact fault tolerant control Practical implementation and examples
Preface ix Introduction xi Chapter 1. State of the Art in Fault-tolerant Control 1 1.1. Fault detection and isolation 4 1.2. Control reconfiguration 6 1.3. Sets in control 9 1.4. Existing set-theoretic methods in FTC 22 Chapter 2. Fault Detection and Isolation in Multisensor Systems 27 2.1. Problem statement 28 2.2. Fault detection and isolation 35 2.3. Recovery mechanism 45 Chapter 3. Residual Generation and Reference Governor Design 55 3.1. Residual signals 56 3.2. Reference governor synthesis 68 Chapter 4. Reconfiguration of the Control Mechanism for Fault-tolerant Control 73 4.1. Active FTC with fix gain feedback 76 4.2. Active FTC with MPC control 89 4.3. Passive FTC control 96 Chapter 5. Related Problems and Applications 103 5.1. Set theoretic issues 103 5.2. Illustrative examples 113 Conclusions 133 Bibliography 139 Index 151
A general view on fault tolerant control within the set-theoretic framework Fault detection and isolation conditions Persisting exciting reference generation for exact fault detection and isolation Reconfiguration of the control mechanism for exact fault tolerant control Practical implementation and examples
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