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  • GBV  (21)
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  • 1
    Book
    Book
    Competition law in China (2012)
    Alphen Aan Den Rijn [u.a.] : Kluwer Law International
    Details
    UID:
    (DE-627)683904442
    Format: 150 S. , Ill.
    ISBN: 9041138684 , 9789041138682
    Note: Originally published as a monograph in the International Encyclopaedia of Laws/ Competition Law
    Language: English
    Subjects: Law
    RVK:
    PU 8450
    Keywords: China ; Wettbewerbsrecht
    URL: Inhaltsverzeichnis
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  • 2
    Online Resource
    Online Resource
    Competition Law in China (2018)
    Alphen aan den Rijn : Wolters Kluwer Law International
    Details
    UID:
    (DE-627)1750689928
    Format: 1 online resource (182 pages)
    Edition: 3rd ed.
    ISBN: 9789041195913
    Note: Description based on publisher supplied metadata and other sources
    Additional Edition: 9789041195906
    Additional Edition: Erscheint auch als Druck-Ausgabe 9789041195906
    Language: English
    URL: lizenzpflichtig
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  • 3
    Book
    Book
    Competition law in China (2014)
    Alphen aan den Rijn, The Netherlands : Kluwer Law International
    Details
    UID:
    (DE-627)1611461472
    Format: 168 S. , Ill.
    Edition: 2. ed.
    ISBN: 9789041153005
    Note: Ursprünglich erschienen in: International encyclopaedia of laws : Competition law
    Language: English
    Keywords: China ; Wettbewerbsrecht
    URL: Inhaltsverzeichnis
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  • 4
    Online Resource
    Online Resource
    Fuzzy Control Systems with Time-Delay and Stochastic Perturbation : Analysis and Synthesis (2014)
    Cham : Springer International Publishing AG
    Details
    UID:
    (DE-627)1746167343
    Format: 1 online resource (357 pages)
    ISBN: 9783319113166
    Series Statement: Studies in Systems, Decision and Control Ser. v.12
    Content: This book presents up-to-date research developments and novel methodologies on fuzzy control systems. It presents solutions to a series of problems with new approaches for the analysis and synthesis of fuzzy time-delay systems and fuzzy stochastic systems, including stability analysis and stabilization, dynamic output feedback control, robust filter design, and model approximation. A set of newly developed techniques such as fuzzy Lyapunov function approach, delay-partitioning, reciprocally convex, cone complementary linearization approach are presented. Fuzzy Control Systems with Time-Delay and Stochastic Perturbation: Analysis and Synthesis is a comprehensive reference for researcher and practitioners working in control engineering, system sciences and applied mathematics, and is also a useful source of information for senior undergraduates and graduates in these areas. The readers will benefit from some new concepts, new models and new methodologies with practical significance in control engineering and signal processing..
    Content: Intro -- Preface -- Acknowledgements -- Contents -- List of Figures -- List of Tables -- Notations and Acronyms -- 1 Introduction -- 1.1 Stability and Synthesis of T-S Fuzzy Systems -- 1.1.1 Stability and Stabilization -- 1.1.2 Optimal Synthesis Problems -- 1.2 Stability Analysis of Time-Delay Systems: An LMI Approach -- 1.2.1 Delay-Independent Case -- 1.2.2 Delay-Dependent Case -- 1.3 Publication Contribution -- 1.4 Publication Outline -- Part I Analysis and Synthesis of T-S Fuzzy Time-Delay Systems -- 2 Stability Analysis of Discrete-Time T-S Fuzzy Time-Delay Systems -- 2.1 Introduction -- 2.2 System Description and Preliminaries -- 2.3 Main Results -- 2.3.1 Delay Partitioning Approach -- 2.3.2 Input-Output Approach -- 2.3.3 Reciprocally Convex Approach -- 2.4 Illustrative Example -- 2.5 Conclusion -- 3 Stabilization and DOF Control of Discrete-Time T-S Fuzzy Time-Delay Systems -- 3.1 Introduction -- 3.2 System Description and Preliminaries -- 3.3 Stabilization -- 3.4 Dynamic Output Feedback Control -- 3.5 Illustrative Example -- 3.6 Conclusion -- 4 Robust Filtering of Discrete-Time T-S Fuzzy Time-Delay Systems -- 4.1 Introduction -- 4.2 H Filter Design -- 4.2.1 System Description and Preliminaries -- 4.2.2 Main Results -- 4.2.3 Illustrative Example -- 4.3 Reliable Filter Design -- 4.3.1 System Description and Preliminaries -- 4.3.2 Main Results -- 4.3.3 Illustrative Example -- 4.4 Conclusion -- 5 Distributed Filtering of Discrete-Time T-S Fuzzy Time-Delay Systems -- 5.1 Introduction -- 5.2 System Description and Preliminaries -- 5.3 Main Results -- 5.4 Illustrative Example -- 5.5 Conclusion -- 6 Model Approximation of Discrete-Time T-S Fuzzy Time-Delay Systems -- 6 .1 Introduction -- 6.2 System Description and Preliminaries -- 6.3 Main Results -- 6.3.1 Performance Analysis -- 6.3.2 Model Approximation -- 6.4 Special Cases.
    Note: Description based on publisher supplied metadata and other sources
    Additional Edition: 9783319113159
    Additional Edition: Erscheint auch als Druck-Ausgabe 9783319113159
    Language: English
    URL: lizenzpflichtig
    URL: Inhaltstext
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  • 5
    Online Resource
    Online Resource
    Sliding Mode Control of Uncertain Parameter-Switching Hybrid Systems. (2014)
    New York : John Wiley & Sons, Incorporated
    Details
    UID:
    (DE-627)1657985008
    Format: 1 online resource (285 pages)
    Edition: 1st ed.
    ISBN: 9781118862643
    Series Statement: Wiley Series in Dynamics and Control of Electromechanical Systems Ser
    Content: In control theory, sliding mode control (SMC) is a nonlinear control method that alters the dynamics of a nonlinear system by application of a discontinuous control signal that forces the system to slide along a cross-section of the system's normal behaviour. In recent years, SMC has been successfully applied to a wide variety of practical engineering systems including robot manipulators, aircraft, underwater vehicles, spacecraft, flexible space structures, electrical motors, power systems, and automotive engines. Sliding Mode Control of Uncertain Parameter-Switching Hybrid Systems addresses the increasing demand for developing SMC technologies and comprehensively presents the new, state-of-the-art sliding mode control methodologies for uncertain parameter-switching hybrid systems. It establishes a unified framework for SMC of Markovian jump singular systems and proposes new SMC methodologies based on the analysis results. A series of problems are solved with new approaches for analysis and synthesis of switched hybrid systems, including stability analysis and stabilization, dynamic output feedback control, and SMC. A set of newly developed techniques (e.g. average dwell time, piecewise Lyapunov function, parameter-dependent Lyapunov function, cone complementary linearization) are exploited to handle the emerging mathematical/computational challenges. Key features: Covers new concepts, new models and new methodologies with theoretical significance in system analysis and control synthesis Includes recent advances in Markovian jump systems, switched hybrid systems, singular systems, stochastic systems and time-delay systems Includes solved problems Introduces advanced techniques Sliding Mode Control of Uncertain Parameter-Switching Hybrid Systems is a comprehensive reference for researchers and practitioners working in control engineering,
    Content: Intro -- Sliding Mode Control of Uncertain Parameter-Switching Hybrid Systems -- Contents -- Series Preface -- Preface -- Acknowledgments -- Abbreviations and Notations -- Abbreviations -- Notations -- 1 Introduction -- 1.1 Sliding Mode Control -- 1.1.1 Fundamental Theory of SMC -- 1.1.2 Overview of SMC Methodologies -- 1.2 Uncertain Parameter-Switching Hybrid Systems -- 1.2.1 Analysis and Synthesis of Switched Hybrid Systems -- 1.2.2 Analysis and Synthesis of Markovian Jump Linear Systems -- 1.3 Contribution of the Book -- 1.4 Outline of the Book -- Part One SMC of Markovian Jump Singular Systems -- 2 State Estimation and SMC of Markovian Jump Singular Systems -- 2.1 Introduction -- 2.2 System Description and Preliminaries -- 2.3 Stochastic Stability Analysis -- 2.4 Main Results -- 2.4.1 Observer and SMC Law Design -- 2.4.2 Sliding Mode Dynamics Analysis -- 2.5 Illustrative Example -- 2.6 Conclusion -- 3 Optimal SMC of Markovian Jump Singular Systems with Time Delay -- 3.1 Introduction -- 3.2 System Description and Preliminaries -- 3.3 Bounded L2 Gain Performance Analysis -- 3.4 Main Results -- 3.4.1 Sliding Mode Dynamics Analysis -- 3.4.2 SMC Law Design -- 3.5 Illustrative Example -- 3.6 Conclusion -- 4 SMC of Markovian Jump Singular Systems with Stochastic Perturbation -- 4.1 Introduction -- 4.2 System Description and Preliminaries -- 4.3 Integral SMC -- 4.3.1 Sliding Mode Dynamics Analysis -- 4.3.2 SMC Law Design -- 4.4 Optimal Integral SMC -- 4.4.1 Performance Analysis and SMC Law Design -- 4.4.2 Computational Algorithm -- 4.5 Illustrative Example -- 4.6 Conclusion -- Part Two SMC of Switched State-Delayed Hybrid Systems -- 5 Stability and Stabilization of Switched State-Delayed Hybrid Systems -- 5.1 Introduction -- 5.2 Continuous-Time Systems -- 5.2.1 System Description -- 5.2.2 Main Results -- 5.2.3 Illustrative Example.
    Note: Description based on publisher supplied metadata and other sources
    Additional Edition: 9781118862599
    Additional Edition: Erscheint auch als Druck-Ausgabe 9781118862599
    Language: English
    URL: Volltext  (lizenzpflichtig)
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  • 6
    Online Resource
    Online Resource
    Fuzzy Control Systems with Time-Delay and Stochastic Perturbation : Analysis and Synthesis (2014)
    [s.l.] : Springer-Verlag
    Details
    UID:
    (DE-627)817524568
    Format: Online Ressource (6195 KB, 348 S.)
    Edition: 1. Aufl.
    ISBN: 3319113151
    Series Statement: Studies in Systems, Decision and Control v.12
    Content: This book presents up-to-date research developments and novel methodologies on fuzzy control systems. It presents solutions to a series of problems with new approaches for the analysis and synthesis of fuzzy time-delay systems and fuzzy stochastic systems, including stability analysis and stabilization, dynamic output feedback control, robust filter design, and model approximation. A set of newly developed techniques such as fuzzy Lyapunov function approach, delay-partitioning, reciprocally convex, cone complementary linearization approach are presented. Fuzzy Control Systems with Time-Delay and Stochastic Perturbation: Analysis and Synthesisis a comprehensive reference for researcher and practitioners working in control engineering, system sciences and applied mathematics, and is also a useful source of information for senior undergraduates and graduates in these areas. The readers will benefit from some new concepts, new models and new methodologies with practical significance in control engineering and signal processing.   
    Note: Description based upon print version of record , Preface; Acknowledgements; Contents; List of Figures; List of Tables; Notations and Acronyms; 1Introduction; 1.1Stability and Synthesis of T-S Fuzzy Systems; 1.1.1Stability and Stabilization; 1.1.2Optimal Synthesis Problems; 1.2Stability Analysis of Time-Delay Systems: An LMI Approach; 1.2.1Delay-Independent Case; 1.2.2Delay-Dependent Case; 1.3Publication Contribution; 1.4Publication Outline; Part I Analysis and Synthesis of T-S Fuzzy Time-Delay Systems; 2Stability Analysis of Discrete-Time T-S Fuzzy Time-Delay Systems; 2.1Introduction; 2.2System Description and Preliminaries; 2.3Main Results , 2.3.1Delay Partitioning Approach2.3.2Input-Output Approach; 2.3.3Reciprocally Convex Approach; 2.4Illustrative Example; 2.5Conclusion; 3Stabilization and DOF Control of Discrete-Time T-S Fuzzy Time-Delay Systems; 3.1Introduction; 3.2System Description and Preliminaries; 3.3Stabilization; 3.4Dynamic Output Feedback Control; 3.5Illustrative Example; 3.6Conclusion; 4Robust Filtering of Discrete-Time T-S Fuzzy Time-Delay Systems; 4.1Introduction; 4.2H Filter Design; 4.2.1System Description and Preliminaries; 4.2.2Main Results; 4.2.3Illustrative Example; 4.3Reliable Filter Design , 4.3.1System Description and Preliminaries4.3.2Main Results; 4.3.3Illustrative Example; 4.4 Conclusion; 5Distributed Filtering of Discrete-Time T-S Fuzzy Time-Delay Systems; 5.1Introduction; 5.2System Description and Preliminaries; 5.3Main Results; 5.4Illustrative Example; 5.5Conclusion; 6Model Approximation of Discrete-Time T-S Fuzzy Time-Delay Systems; 6.1 Introduction; 6.2System Description and Preliminaries ; 6.3Main Results; 6.3.1Performance Analysis; 6.3.2Model Approximation; 6.4Special Cases; 6.4.1Delay-Free Model Case; 6.4.2Zero-Order Model Case; 6.5Illustrative Example; Conclusion , Part II Analysis and Synthesis of T-S Fuzzy Stochastic Systems7Stability and Stabilization of Discrete-Time T-S Fuzzy Stochastic Systems; 7.1Introduction; 7.2System Description and Preliminaries; 7.3Main Results; 7.3.1Stability Analysis; 7.3.2Stabilization; 7.4Illustrative Example; 7.5Conclusion; 8Dissipativity Analysis and Synthesis of Discrete-Time T-S Fuzzy Stochastic Systems; 8.1Introduction; 8.2System Description and Preliminaries; 8.3Main Results; 8.3.1Model Transformation; 8.3.2Dissipativity Analysis; 8.3.3Dissipative Controller Design; 8.4Illustrative Example; 8.5Conclusion , 9Robust L2-L DOF Control of Continuous-Time T-S Fuzzy Stochastic Systems9.1Introduction; 9.2System Description and Preliminaries; 9.3Main Results; 9.4Illustrative Example; 9.5Conclusion; 10Robust H Filtering of Discrete-Time T-S Fuzzy Stochastic Systems; 10.1Introduction; 10.2System Description and Preliminaries; 10.3Main Results; 10.3.1Filtering Analysis; 10.3.2H Filter Design; 10.4Illustrative Example; 10.5Conclusion; 11Fault Detection of Continuous-Time T-S Fuzzy Stochastic Systems; 11.1Introduction; 11.2System Description and Preliminaries; 11.3Main Results , 11.3.1Fuzzy-Rule-Independent Case
    Additional Edition: 331911316X
    Additional Edition: 9783319113166
    Additional Edition: Print version Fuzzy Control Systems with Time-Delay and Stochastic Perturbation : Analysis and Synthesis
    Language: English
    Keywords: Electronic books
    URL: Volltext
    URL: Volltext
    URL: Inhaltstext
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  • 7
    Article
    Article
    How do tourism goal disclosure motivations drive Chinese tourists' goal-directed behaviors? : the influences of feedback valence, affective rumination, and emotional engagement (2022)
    Show associated volumes
    Details
    UID:
    (DE-627)1812841310
    ISSN: 0261-5177
    In: Tourism management, Amsterdam [u.a.] : Elsevier Science, 1982, 90(2022) vom: Juni, Seite 1-14, 0261-5177
    In: volume:90
    In: year:2022
    In: month:06
    In: pages:1-14
    Language: English
    Keywords: Aufsatz in Zeitschrift
    DOI: 10.1016/j.tourman.2021.104483
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    Open Access Request
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  • 8
    Online Resource
    Online Resource
    Tourists' goal-directed behaviors : the influences of goal disclosure, goal commitment, and temporal distance (2022)
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    Details
    UID:
    (DE-627)1794633103
    ISSN: 1552-6763
    In: Journal of travel research, Thousand Oaks, Calif. [u.a.] : Sage, 1968, 61(2022), 4 vom: Apr., Seite 940-960, 1552-6763
    In: volume:61
    In: year:2022
    In: number:4
    In: month:04
    In: pages:940-960
    Language: English
    Keywords: Aufsatz in Zeitschrift
    DOI: 10.1177/00472875211000446
    URL: lizenzpflichtig
    URL: lizenzpflichtig
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    URL: lizenzpflichtig
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  • 9
    Online Resource
    Online Resource
    Sliding mode control of uncertain parameter-switching hybrid systems (2014)
    Chichester, West Sussex, United Kingdom : Wiley
    Details
    UID:
    (DE-627)1679576216
    Format: 1 Online-Ressource (1 online resource)
    ISBN: 1118862627 , 1118862643 , 1118862619 , 1118862597 , 130690823X , 9781118862612 , 9781118862629 , 9781118862599 , 9781306908238 , 9781118862643
    Content: "Presents new, state-of-the-art sliding mode control (SMC) methodologies for uncertain parameter-switching hybrid systemsSliding Mode Control of Uncertain Parameter-Switching Hybrid Systems presentsnew, state-of-the-art sliding mode control (SMC) methodologies for uncertain parameter-switching hybrid systems (including Markovian jump systems, switched hybrid systems, singular systems, stochastic systems and time-delay systems). The first part of this book establishes a unified framework for SMC of Markovian jump singular systems and proposes new SMC methodologies based on the analysis results. In the second part, the problem of SMC of switched state-delayed hybrid systems is investigated, and finally the parallel theories and techniques that have been developed are extended to deal with switched stochastic hybrid systems. Solved problems with new approaches for analysis and synthesis of continuous- and discrete-time switched hybrid systems, (including stability analysis and stabilization, dynamic output feedback control,) are also included throughout. Presents new, state-of-the-art sliding mode control (SMC) methodologies for uncertain parameter-switching hybrid systems Provides a unified, systematic framework for handling SMC problems Introduces new concepts, models and techniques Includes solved problems throughout "--
    Content: Machine generated contents note: Preface v Acknowledgements vii List of Notations xi List of Abbreviations xiii 1 Introduction 1 1.1 Sliding Mode Control 1 1.1.1 Fundamental Theory of SMC 1 1.1.2 Overview of SMC Methodologies 12 1.2 Uncertain Parameter-Switching Hybrid Systems 15 1.2.1 Analysis and Synthesis of Switched Hybrid Systems 15 1.2.2 Analysis and Synthesis of Markovian Jump Linear Systems 23 1.3 Contribution of the Book 24 1.4 Outline of the Book 26 Part One SMC of Markovian Jump Singular Systems 33 2 State Estimation and SMC of Markovian Jump Singular Systems 35 2.1 Introduction 35 2.2 System Description and Preliminaries 36 2.3 Stochastic Stability Analysis 37 2.4 Main Results 39 2.4.1 Observer and SMC Law Design 40 2.4.2 Sliding Mode Dynamics Analysis 41 2.5 Illustrative Example 45 2.6 Conclusion 47 3 Optimal SMC of Markovian Jump Singular Systems with Time-Delay 49 3.1 Introduction 49 3.2 System Description and Preliminaries 50 3.3 Bounded L2 Gain Performance Analysis 51 3.4 Main Results 54 3.4.1 Sliding Mode Dynamics Analysis 54 3.4.2 SMC Law Design 58 3.5 Illustrative Example 59 3.6 Conclusion 62 4 SMC of Markovian Jump Singular Systems with Stochastic Perturbation 63 4.1 Introduction 63 4.2 System Description and Preliminaries 64 4.3 Integral SMC 65 4.3.1 Sliding Mode Dynamics Analysis 65 4.3.2 SMC Law Design 67 4.4 Optimal H & infin; Integral SMC 69 4.4.1 Performance Analysis and SMC Law Design 69 4.4.2 Computational Algorithm 74 4.5 Illustrative Example 75 4.6 Conclusion 80 Part Two SMC of Switched State-Delayed Hybrid Systems 81 5 Stability and Stabilization of Switched State-Delayed Hybrid Systems 83 5.1 Introduction 83 5.2 Continuous-Time Systems 84 5.2.1 System Description 84 5.2.2 Main Results 85 5.2.3 Illustrative Example 89 5.3 Discrete-Time Systems 90 5.3.1 System Description 90 5.3.2 Main Results 91 5.3.3 Illustrative Example 97 5.4 Conclusion 100 6 Optimal DOF Control of Switched State-Delayed Hybrid Systems 101 6.1 Introduction 101 6.2 Optimal L2-L & infin; DOF Controller Design 102 6.2.1 System Description and Preliminaries 102 6.2.2 Main Results 103 6.2.3 Illustrative Example 113 6.3 Guaranteed Cost DOF Controller Design 117 6.3.1 System Description and Preliminaries 117 6.3.2 Main Results 118 6.3.3 Illustrative Example 127 6.4 Conclusion 131 7 SMC of Switched State-Delayed Hybrid Systems: Continuous-Time Case 133 7.1 Introduction 133 7.2 System Description and Preliminaries 134 7.3 Main Results 134 7.3.1 Sliding Mode Dynamics Analysis 134 7.3.2 SMC Law Design 138 7.4 Illustrative Example 142 7.5 Conclusion 148 8 SMC of Switched State-Delayed Hybrid Systems: Discrete-Time Case 149 8.1 Introduction 149 8.2 System Description and Preliminaries 150 8.3 Main Results 151 8.3.1 Sliding Mode Dynamics Analysis 151 8.3.2 SMC Law Design 157 8.4 Illustrative Example 158 8.5 Conclusion 161 Part Three SMC of Switched Stochastic Hybrid Systems 163 9 Control of Switched Stochastic Hybrid Systems: Continuous-Time Case 165 9.1 Introduction 165 9.2 System Description and Preliminaries 166 9.3 Stability Analysis and Stabilization 168 9.4 H & infin; Control 172 9.4.1 H & infin; Performance Analysis 172 9.4.2 State Feedback Control 174 9.4.3 H & infin; DOF Controller Design 175 9.5 Illustrative Example 178 9.6 Conclusion 183 10 Control of Switched Stochastic Hybrid Systems: Discrete-Time Case 185 10.1 Introduction 185 10.2 System Description and Preliminaries 185 10.3 Stability Analysis and Stabilization 187 10.4 H & infin; Control 192 10.5 Illustrative Example 196 10.6 Conclusion 200 11 State Estimation and SMC of Switched Stochastic Hybrid Systems 201 11.1 Introduction 201 11.2 System Description and Preliminaries 201 11.3 Main Results 203 11.3.1 Sliding Mode Dynamics Analysis 203 11.3.2 SMC Law Design 204 11.4 Observer-Based SMC Design 205 11.5 Illustrative Example 209 11.6 Conclusion 215 12 SMC with Dissipativity of Switched Stochastic Hybrid Systems 217 12.1 Introduction 217 12.2 Problem Formulation and Preliminaries 218 12.2.1 System Description 218 12.2.2 Dissipativity 219 12.3 Dissipativity Analysis 220 12.4 Sliding Mode Control 224 12.4.1 Sliding Mode Dynamics 224 12.4.2 Sliding Mode Dynamics Analysis 226 12.4.3 SMC Law Design 228 12.5 Illustrative Example 229 12.6 Conclusion 233 References 235.
    Note: Includes bibliographical references and index
    Additional Edition: 9781118862599
    Additional Edition: Erscheint auch als Druck-Ausgabe Wu, Ligang Sliding mode control of uncertain parameter-switching hybrid systems Chichester, West Sussex, United Kingdom : John Wiley & Sons, Inc., 2014
    Language: English
    DOI: 10.1002/9781118862612
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781118862612
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  • 10
    Online Resource
    Online Resource
    Sliding mode control of uncertain parameter-switiching hybrid systems (2014)
    West Sussex, U.K. : Wiley
    Details
    UID:
    (DE-627)1680281038
    Format: 1 online resource (1 v.) , ill.
    ISBN: 9781118862629 , 1118862627 , 9781118862599 , 1118862597
    Series Statement: Wiley series in dynamics and control of electromechanical systems
    Content: In control theory, sliding mode control (SMC) is a nonlinear control method that alters the dynamics of a nonlinear system by application of a discontinuous control signal that forces the system to slide along a cross-section of the system's normal behaviour. In recent years, SMC has been successfully applied to a wide variety of practical engineering systems including robot manipulators, aircraft, underwater vehicles, spacecraft, flexible space structures, electrical motors, power systems, and automotive engines. Sliding Mode Control of Uncertain Parameter-Switching Hybrid Systems addresses the increasing demand for developing SMC technologies and comprehensively presents the new, state-of-the-art sliding mode control methodologies for uncertain parameter-switching hybrid systems. It establishes a unified framework for SMC of Markovian jump singular systems and proposes new SMC methodologies based on the analysis results. A series of problems are solved with new approaches for analysis and synthesis of switched hybrid systems, including stability analysis and stabilization, dynamic output feedback control, and SMC. A set of newly developed techniques (e.g. average dwell time, piecewise Lyapunov function, parameter-dependent Lyapunov function, cone complementary linearization) are exploited to handle the emerging mathematical/computational challenges. Key features: Covers new concepts, new models and new methodologies with theoretical significance in system analysis and control synthesis Includes recent advances in Markovian jump systems, switched hybrid systems, singular systems, stochastic systems and time-delay systems Includes solved problems Introduces advanced techniques Sliding Mode Control of Uncertain Parameter-Switching Hybrid Systems is a comprehensive reference for researchers and practitioners working in control engineering, system sciences and applied mathematics, and is also a useful source of information for senior undergraduate and graduates studying in these areas.
    Note: Includes bibliographical references and index. - Description based on online resource; title from title page (Safari, viewed Sept. 30, 2014)
    Language: English
    URL: https://learning.oreilly.com/library/view/-/9781118862629/?ar
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