Synchronization control for large-scale network systems

This book provides recent advances in analysis and synthesis of Large-scale network systems (LSNSs) with sampled-data communication and non-identical nodes. In its first chapter of the book presents an introduction to Synchronization of LSNSs and Algebraic Graph Theory as well as an overview of rece...

Full description

Saved in:
Bibliographic Details
Main Authors Wu, Yuanqing (Author), Lu, Renquan (Author), Su, Hongye (Author), Shi, Peng (Author), Wu, Zheng-Guang (Author)
Format Electronic eBook
LanguageEnglish
Published Cham, Switzerland : Springer, [2016]
SeriesStudies in systems, decision and control ; v. 76.
Subjects
Large scale systems.
Systems engineering.
elektronické knihy
electronic books
Online AccessFull text
ISBN9783319451503
9783319451497
Physical Description1 online resource

Cover

Table of Contents:
  • Preface; Contents; Symbols and Acronyms; 1 Introduction; 1.1 Synchronization of LSNSs; 1.2 Algebraic Graph Theory; 1.2.1 Time-Varying Graph; 1.2.2 Time-Invariant Graph; 1.2.3 Hierarchical Decomposition; 1.3 Book Organization; 1.4 Some Lemmas; References; LSNSs with Sampled-Data Communication; 2 Sampled-Data Control with Actuators Saturation; 2.1 Introduction; 2.2 Preliminaries; 2.3 Main Results; 2.4 Numerical Example; 2.5 Conclusion; References; 3 Sampled-Data Control with Constant Delay; 3.1 Introduction; 3.2 Preliminaries; 3.3 Sampled-Data Control
  • 3.4 Sampled-Data Control with Constant Delay3.5 Numerical Example; 3.6 Conclusion; References; 4 Sampled-Data Control with Time-Varying Coupling Delay; 4.1 Introduction; 4.2 Preliminaries; 4.3 Main Results; 4.4 Numerical Examples; 4.5 Conclusion; References; 5 An Input-Based Triggering Approach to LSNSs; 5.1 Introduction; 5.2 Problem Formulation and Preliminaries; 5.2.1 System Models; 5.2.2 Communication Protocols; 5.2.3 Event Triggered Predictors and Controllers; 5.3 Stability and Inter-Event Intervals; 5.3.1 Time-Dependent Threshold; 5.3.2 Time-Independent Threshold
  • 5.4 Extension to Directed Graphs5.5 Simulation Examples; 5.5.1 Undirected Graph; 5.5.2 Directed Graphs; 5.6 Conclusion; References; LSNSs with Non-Identical Nodes; 6 Robust Output Synchronization via Internal Model Principle; 6.1 Introduction; 6.2 Problem Statement; 6.3 Consensus of Reference Generators; 6.4 Output Regulation Theory; 6.4.1 Internal Model Principle; 6.4.2 Robust Internal Model Principle; 6.5 Numerical Example; 6.6 Conclusion; References; 7 Output Synchronization via Hierarchical Decomposition; 7.1 Introduction; 7.2 Problem Formulation
  • 7.3 The Designed Controller for Each Agent7.4 Output Synchronization for Each Informed Agent l{1} in Layer 1; 7.4.1 Globally Asymptotic Behavior for Each Agent l{1} inmathcalS1; 7.4.2 Locally Exponential Behavior for Each Agent l{1} inmathcalS1; 7.5 Output Synchronization for Non-informed Agent l{q} in Layer q, q=2,#x83;, r; 7.5.1 Boundedness of Trajectories for Each Agent l{q}inmathcalSq; 7.5.2 Globally Asymptotical Behavior for Each Agent l{q}inmathcalSq; 7.5.3 Locally Exponential Behavior for Each Agent l{q}inmathcalSq; 7.6 Numerical Example; 7.7 Conclusion; References
  • 8 Synchronization of LSNSs via Static Output Feedback Control8.1 Introduction; 8.2 Problem Formulation and Preliminaries; 8.3 Stability and Control Synthesis; 8.4 Hinfty Performance and Control Synthesis; 8.5 Simulation Example; 8.6 Conclusion; References; 9 Robust Output Regulation via Hinfty Approach; 9.1 Introduction; 9.2 Problem Formulation; 9.3 Identical Reference Generator; 9.4 Robust Regulation via Hinfty Methods; 9.5 Numerical Example; 9.6 Conclusion; References; 10 Adaptive Output Synchronization with Uncertain Leader; 10.1 Introduction; 10.2 Problem Formulation; 10.3 Main Results

Similar Items