â??Power Grid Complexityâ? introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It s… Mehr…
â??Power Grid Complexityâ? introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It studies the network characteristics of power systems, such as their small-world properties, structural vulnerability, decomposition and coordination strategies, and simplification and equivalence methods. The book also establishes four blackout models based on SOC theory through which the SOC of power systems is studied at both the macroscopic and microscopic levels. Additionally, applications of complex system theory in power system planning and emergency management platforms are also discussed in depth. This book can serve as a useful reference for engineers and researchers working with power systems. Shengwei Mei is a Professor at the Department of Electrical Engineering at Tsinghua University, China. Xuemin Zhang is a Lecturer at the Department of Electrical Engineering at Tsinghua University, China. Ming Cao is an Assistant Professor at the Faculty of Mathematics and Natural Sciences at the University of Groningen, the Netherlands.   Books > Engineering eBook, Springer Shop<
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“Power Grid Complexity” introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It studi… Mehr…
“Power Grid Complexity” introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It studies the network characteristics of power systems, such as their small-world properties, structural vulnerability, decomposition and coordination strategies, and simplification and equivalence methods. The book also establishes four blackout models based on SOC theory through which the SOC of power systems is studied at both the macroscopic and microscopic levels. Additionally, applications of complex system theory in power system planning and emergency management platforms are also discussed in depth. This book can serve as a useful reference for engineers and researchers working with power systems. Shengwei Mei is a Professor at the Department of Electrical Engineering at Tsinghua University, China. Xuemin Zhang is a Lecturer at the Department of Electrical Engineering at Tsinghua University, China. Ming Cao is an Assistant Professor at the Faculty of Mathematics and Natural Sciences at the University of Groningen, the Netherlands. , Springer<
This book introduces self-organized criticality (SOC) theory and complex network theory and applies them to power systems. It examines four blackout models based on SOC theory and studies… Mehr…
This book introduces self-organized criticality (SOC) theory and complex network theory and applies them to power systems. It examines four blackout models based on SOC theory and studies the SOC of power systems at both the macroscopic and microscopic levels.; PDF; Scientific, Technical and Medical > Physics, Springer Berlin Heidelberg<
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Power Grid Complexity eBook Shengwei Mei#Xuemin Zhang#Ming Cao 15.09.2011, Springer, Springer
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â??Power Grid Complexityâ? introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It s… Mehr…
â??Power Grid Complexityâ? introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It studies the network characteristics of power systems, such as their small-world properties, structural vulnerability, decomposition and coordination strategies, and simplification and equivalence methods. The book also establishes four blackout models based on SOC theory through which the SOC of power systems is studied at both the macroscopic and microscopic levels. Additionally, applications of complex system theory in power system planning and emergency management platforms are also discussed in depth. This book can serve as a useful reference for engineers and researchers working with power systems. Shengwei Mei is a Professor at the Department of Electrical Engineering at Tsinghua University, China. Xuemin Zhang is a Lecturer at the Department of Electrical Engineering at Tsinghua University, China. Ming Cao is an Assistant Professor at the Faculty of Mathematics and Natural Sciences at the University of Groningen, the Netherlands.   Books > Engineering eBook, Springer Shop<
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“Power Grid Complexity” introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It studi… Mehr…
“Power Grid Complexity” introduces the complex system theory known as self-organized criticality (SOC) theory and complex network theory, and their applications to power systems. It studies the network characteristics of power systems, such as their small-world properties, structural vulnerability, decomposition and coordination strategies, and simplification and equivalence methods. The book also establishes four blackout models based on SOC theory through which the SOC of power systems is studied at both the macroscopic and microscopic levels. Additionally, applications of complex system theory in power system planning and emergency management platforms are also discussed in depth. This book can serve as a useful reference for engineers and researchers working with power systems. Shengwei Mei is a Professor at the Department of Electrical Engineering at Tsinghua University, China. Xuemin Zhang is a Lecturer at the Department of Electrical Engineering at Tsinghua University, China. Ming Cao is an Assistant Professor at the Faculty of Mathematics and Natural Sciences at the University of Groningen, the Netherlands. , Springer<
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This book introduces self-organized criticality (SOC) theory and complex network theory and applies them to power systems. It examines four blackout models based on SOC theory and studies… Mehr…
This book introduces self-organized criticality (SOC) theory and complex network theory and applies them to power systems. It examines four blackout models based on SOC theory and studies the SOC of power systems at both the macroscopic and microscopic levels.; PDF; Scientific, Technical and Medical > Physics, Springer Berlin Heidelberg<
No. 9783642162114. Versandkosten:Instock, Despatched same working day before 3pm, zzgl. Versandkosten.
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EAN (ISBN-13): 9783642162114 ISBN (ISBN-10): 3642162118 Erscheinungsjahr: 2011 Herausgeber: Springer Berlin 300 Seiten Sprache: eng/Englisch
Buch in der Datenbank seit 2012-06-15T21:26:18+02:00 (Berlin) Detailseite zuletzt geändert am 2024-02-11T09:58:53+01:00 (Berlin) ISBN/EAN: 3642162118
ISBN - alternative Schreibweisen: 3-642-16211-8, 978-3-642-16211-4 Alternative Schreibweisen und verwandte Suchbegriffe: Autor des Buches: shen, ming, sheng Titel des Buches: mei, complexity
Daten vom Verlag:
Autor/in: Shengwei Mei Titel: Power Grid Complexity Verlag: Springer; Springer Berlin; Tsinghua University Press 455 Seiten Erscheinungsjahr: 2011-09-15 Berlin; Heidelberg; DE Sprache: Englisch 165,00 € (DE)
EA; E107; eBook; Nonbooks, PBS / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik; Elektrotechnik; Verstehen; Blackout Model; Cascading failures; Power System Blackout; Self-Organized Criticality (SOC); TUP; C; Power Electronics, Electrical Machines and Networks; Physics, general; Energy Systems; Electrical Power Engineering; Physics and Astronomy; Mechanical Power Engineering; Engineering; Mathematik und Naturwissenschaften; Energietechnik, Elektrotechnik und Energiemaschinenbau; BB
Introduction.- SOC and Complex Networks.- Foundation of SOC in Power Systems.- Power Grid Growth and Evolution.- Complex Small-World Power Grids.- Decomposition and Coordination of Static Power Grids.- Vulnerability Assessment of Static Power Grids.- Simplification, Equivalence, and Synchronization Controlof Dynamic Power Grids.- Blackout Model Based on DC Power Flow.- Blackout Model Based on AC Power Flow.- Blackout Model Considering Reactive Power/Voltage Characteristics.- Blackout Model Based on the OTS.- Applications to Generation Expansion Planning and Power Network Planning.- Applications In Electric Power Emergency Management Platform.
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