Communications for Control in Cyber Physical Systems: Theory, Design and Applications in Smart Grids

Communications and Controls in Cyber Physical Systems: Theory, Design and Applications in Smart Grids provides readers with all they need to know about cyber physical systems (CPSs), such as smart grids, which have attracted intensive studies in recent years. Communications and controls are of key importance for maintaining and stabilizing the operation of the physical dynamics in these complicated systems. This book presents a systematic treatment on the communication and control aspects of CPSs, along with applications to the smart grid in four parts, including the basics of CPS, communications and controls, an explanation of the integration with CPS, coverage of controls with information constraints in CPS, and an applications oriented focus on smart grids as a CPS. Drawing upon years of practical experience and using numerous examples and illustrations, the authors' discuss key communication and controls design methods that can be integrated into a CPS, how communication and control schemes can be applied in practical systems such as smart grids, new directions and approaches for traditional engineers and researchers in communications, and controls and power systems as they relates to CPSs. Presents a systematic treatment on the communication and control aspects of cyber physical systems (CPSs)Discusses key communication and controls design methods that can be integrated into a CPSDemonstrates how communication and control schemes can be applied in practical systems such as smart gridsIncludes new directions and approaches for traditional engineers and researchers in communications, controls, and power systems as they relate to CPSs INDICE: Part 1. Basics of CPS, Communications and Control Chapter 1. Cyber Physical Systems 1.0 Introduction 1.1 Definition of Cyber Physical Systems 1.2 Typical Cyber Physical Systems 1.3 Major Challenges in Cyber Physical Systems Chapter 2. Communication Network 2.0 Introduction 2.1 Layered Structure of Communication Networks 2.2 Basic Characteristics of Communication Networks 2.3 Physical Layer: Modulation and Coding 2.4 Networking: Scheduling and Routing Chapter 3. Control Systems 3.0 Introduction 3.1 Modeling of Dynamical Systems 3.2 Observability and Controllability 3.3 Optimal Control Part 2. Communications for Control in CPS Chapter 4. Communication Requirement for Controls 4.0 Introduction 4.1 Deterministic Systems: Topological Entropy 4.2 Stochastic Systems: Incremental Rate-Distortion 4.3 Stochastic Systems: Anytime Capacity 4.4 Second Law of Thermodynamics: Entropy Approach 4.5 Entropy Field Model Chapter 5. Network Topology Design for Controls 5.0 Introduction 5.1 Network Topology Requirement 5.2 Formulation of Optimization 5.3 Efficient Discrete Optimization Chapter 6. Physical Dynamics Aware Networking 6.0 Introduction 6.1 Hybrid Systems 6.2 Hybrid System Modeling of Communications and Controls 6.3 Optimization of Networking Actions 6.4 Performance Analysis Chapter 7. Physical Dynamics Aware Coding and Modulation 7.0 Introduction 7.1 Adaptive Coding/Modulation for Physical Dynamics 7.2 Physical Dynamics Aware Source Coding 7.3 Physical Dynamics Aware Channel Coding Part 3. Controls with Information Constraints in CPS Chapter 8. Decentralized Controls Chapter 9. Controls with Limited Feedbacks Chapter 10. Controls with Unreliable Communications Part 4. Smart Grid As A CPS Chapter 12. Operations of Power Grids Chapter 13. Communications and Control in Smart Grids

• ISBN: 978-0-12-801950-4
• Editorial: Morgan Kaufmann
• Encuadernacion: Rústica
• Páginas: 316
• Fecha Publicación: 10/06/2016
• Nº Volúmenes: 1
• Idioma: Inglés