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Full Description
Cyber-physical-social systems (CPSS) integrate computing, physical assets, and human networks. Divided into four application areas to the electric grid, this book describes state-of-the-art CPSS in electric power systems, including detailed approaches on social constructs which are a critical aspect of the end-user realm. The book covers:
Grid stability and security: distributed controls and algorithms for stability, cyber-security of generator units, and dynamic contingency analysis in the grid.
Distribution system controls and economics: aggregators and agents for demand response, electric vehicles integration, smart neighbourhoods, and microgrids.
Social aspects and implementation: sociological customer interactions with the grid, SCADA systems, and occupants' roles in commercial buildings.
Testbeds for validation: cyber-physical security assessment and distributed real time digital simulation.
This book will be invaluable to academics and professional engineers engaged in cyber-physical social system applications for power engineering. It will also be of interest to social scientists, economists, and business personnel working on engineering applications for the Smart Grid, and students of power engineering.
Contents
Part 1: Introduction
Chapter 1: Introduction to cyber-physical-social systems and their applications in power systems engineering
Part 2: Stability and security of the grid
Chapter 2: Distributed control design for damping inter-area oscillations in cyber-physical power networks
Chapter 3: Distributed algorithms for wide-area monitoring of power systems: a cyber-physical perspective
Chapter 4: Cyber-physical strategies for generator coherency in the face of malicious attack
Chapter 5: Dynamic contingency analysis and remedial action tools for secure electric cyber-physical systems
Part 3: New philosophies of control and economics in distribution systems
Chapter 6: Customer modeling and pricing-mechanisms for demand response in smart electric distribution grids
Chapter 7: Application of the agent-based technology to invoke demand flexibility under the SG-BEMS integration framework
Chapter 8: Grid integration of electric and hybrid electric vehicles in cyber-physical-social systems
Chapter 9: Increasing local renewable energy use in smart neighborhoods through coordinated trading
Chapter 10: Compensation of droop control in DC microgrid with multiple distributed generators
Chapter 11: Co-operative responsive electric vehicles for social-economic dispatch
Part 4: Social aspects and implementations
Chapter 12: If you build it, will they come? Getting consumers on board with the future of the smart grid
Chapter 13: Risks, threats and mitigation strategies for SCADA systems
Chapter 14: Occupant-engaged fast demand response for commercial buildings
Part 5: Testbeds for validation of the research concepts
Chapter 15: A testbed for closed-loop cyber-physical-social system simulation and security analysis
Chapter 16: Cyber-physical-social system security testbeds for an attack-resilient smart grid
Chapter 17: Distributed real-time simulations for electric power engineering
