TY - BOOK ID - 119319102 TI - Smart Grid Resilience : Extreme Weather, Cyber-Physical Security, and System Interdependency PY - 2023 SN - 3031292901 3031292898 PB - Cham : Springer International Publishing : Imprint: Springer, DB - UniCat KW - Electric power distribution. KW - Cooperating objects (Computer systems). KW - Electric power production. KW - Energy policy. KW - Energy and state. KW - Electric power-plants. KW - Energy Grids and Networks. KW - Cyber-Physical Systems. KW - Electrical Power Engineering. KW - Energy Policy, Economics and Management. KW - Power Stations. KW - Electric power systems KW - Power-plants KW - Energy and state KW - Power resources KW - State and energy KW - Industrial policy KW - Energy conservation KW - Electric power generation KW - Electricity generation KW - Power production, Electric KW - Electrification KW - Electricity KW - Power distribution, Electric KW - Power transmission KW - Electric power transmission KW - Government policy KW - Distribution KW - Cooperating objects (Computer systems) UR - https://www.unicat.be/uniCat?func=search&query=sysid:119319102 AB - This book provides a comprehensive overview and in-depth discussion of smart grid resilience. It covers the three most critical resilience problems facing smart grids—resilience against extreme weather, resilience against cyber-physical attacks, and resilience under system inter-dependency. Each of these topics increases the risk of large-scale system-wide cascading failures. In-depth chapters allow the reader to define and quantify the smart grid’s ability to deal with extreme events and the critical infrastructures systems that connect it. Methods for improving system design are introduced along with effective strategies for protecting the system with minimal disruption of power supply and economic and social losses in extreme conditions. Smart Grid Resilience: Extreme Weather, Cyber-Physical Security, and System Interdependency is an essential guide for a broad audience of practicing professionals, including policymakers, electric utility engineers, and transmission and distribution system operators. It will also be a valuable reference for students and researchers. Provides the most comprehensive and up-to-date overview of smart grid resilience; Reveals the most important vulnerabilities and develops corresponding risk mitigation strategies; Discusses system-wide cascading failure modeling and investigation. ER -