Communications for control in cyber physical systems : theory, design and applications in smart grids /

Communications for control in cyber physical systems : theory, design and applications in smart grids /

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Bibliographic Details
Author / Creator:Li, Husheng, author.
Imprint:Cambridge, MA : Morgan Kaufmann is an imprint of Elsevier, 2016.
Description:1 online resource
Language:English
Subject:
Cooperating objects (Computer systems) -- Automatic control.
Smart power grids.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11265093
Related Items:Print version: Communications for control in cyber physical systems : theory, design and applications in smart grids.
Hidden Bibliographic Details
ISBN:9780128019504
0128019506
9780128019641
0128019646
Notes:Includes bibliographical references and index.
Online resource; title from PDF title page (ScienceDirect, viewed July 29, 2016).
Other form:Print version: Li, Husheng. Communications for control in cyber physical systems : theory, design and applications in smart grids. Cambridge, Massachusetts : Morgan Kaufmann, c2016 xv, 294 pages 9780128019504
Table of Contents:
  • 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

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