Details

Resilient Control Architectures and Power Systems


Resilient Control Architectures and Power Systems


IEEE Press Series on Power and Energy Systems 1. Aufl.

von: Craig Rieger, Ronald Boring, Brian Johnson, Timothy McJunkin

103,99 €

Verlag: Wiley
Format: PDF
Veröffentl.: 01.12.2021
ISBN/EAN: 9781119660224
Sprache: englisch
Anzahl Seiten: 336

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Beschreibungen

<b>Master the fundamentals of resilient power grid control applications with this up-to-date resource from four industry leaders</b> <p><i>Resilient Control Architectures and Power Systems</i> delivers a unique perspective on the singular challenges presented by increasing automation in society. In particular, the book focuses on the difficulties presented by the increased automation of the power grid. The authors provide a simulation of this real-life system, offering an accurate and comprehensive picture of a how a power control system works and, even more importantly, how it can fail. <p>The editors invite various experts in the field to describe how and why power systems fail due to cyber security threats, human error, and complex interdependencies. They also discuss promising new concepts researchers are exploring that promise to make these control systems much more resilient to threats of all kinds. Finally, resilience fundamentals and applications are also investigated to allow the reader to apply measures that ensure adequate operation in complex control systems. <p>Among a variety of other foundational and advanced topics, you'll learn about: <ul> <li>The fundamentals of power grid infrastructure, including grid architecture, control system architecture, and communication architecture</li> <li>The disciplinary fundamentals of control theory, human-system interfaces, and cyber security</li> <li>The fundamentals of resilience, including the basis of resilience, its definition, and benchmarks, as well as cross-architecture metrics and considerations</li> <li>The application of resilience concepts, including cyber security challenges, control challenges, and human challenges</li> <li>A discussion of research challenges facing professionals in this field today</li> </ul> <p>Perfect for research students and practitioners in fields concerned with increasing power grid automation, <i>Resilient Control Architectures and Power Systems</i> also has a place on the bookshelves of members of the Control Systems Society, the Systems, Man and Cybernetics Society, the Computer Society, the Power and Energy Society, and similar organizations.
<p>Author biography</p> <p>Contributors</p> <p>Foreword</p> <p>Preface</p> <p>Acknowledgments</p> <p><b>Part I: Introduction</b></p> <p><b>Ch 1: Basis, Definition and Application </b></p> <p>Introduction</p> <p>Definition and Application</p> <p>References</p> <p><b>Ch 2: General Use Case Introduction </b></p> <p>Introduction</p> <p>Characteristics of Power Systems</p> <p>Power Systems Operations and Control</p> <p>Summary</p> <p>References</p> <p><b>Part II: Infrastructure Fundamentals</b></p> <p><b>Ch 3: Power Grid Architecture </b></p> <p>Objectives</p> <p>Introduction</p> <p>Traditional Power System Architectures</p> <p>Emerging Architecture Trends</p> <p>Power Systems Operations and Control</p> <p>Power Systems Planning</p> <p>Measures of Performance</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 4: Control System Architecture </b></p> <p>Objectives</p> <p>Introduction</p> <p>Automatic Generation Control  </p> <p>AGC with Generation Allocation</p> <p>Reactive Power and Voltage Control       </p> <p>Excitation System Stabilizer</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p><b>Ch 5: Communication Architecture </b></p> <p>Objectives</p> <p>Introduction</p> <p>Communication Media</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>References</p> <p><b>Part III: Disciplinary Fundamentals</b></p> <p><b>Ch 6: Introducing Interdisciplinary Studies</b></p> <p>Objectives</p> <p>Introduction</p> <p>The Pathway to an Interdisciplinary Team</p> <p>Further Reading</p> <p><b>Ch 7: Cybersecurity </b></p> <p>Objectives</p> <p>Introduction</p> <p>Systems and Control Systems</p> <p>Fundamental Cybersecurity Objectives: The CIA Triad</p> <p>Fundamental Cybersecurity Techniques</p> <p>Threats, Vulnerabilities, and Attacks</p> <p>Secure System Design Principles</p> <p>Approaches for Threat and Risk Assessment and Mitigation</p> <p>Approaches for Incident Detection and Response</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 8: Control Theory </b></p> <p>Objectives</p> <p>Introduction</p> <p>Deterministic Linear Systems</p> <p>Pontryagin Principle and HJB Equation</p> <p>Stochastic Linear Systems</p> <p>Deterministic Nonlinear Systems</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 9: Human System Interfaces</b></p> <p>Objectives</p> <p>Introduction</p> <p>Basic Methods</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Part IV: Metrics Fundamentals</b></p> <p><b>Ch 10: Differentiating Resilience </b></p> <p>Objectives</p> <p>Introduction</p> <p>Conventional Views of Grid Resilience</p> <p>Grid Characteristics</p> <p>Grid Resilience and the Relationship to Electric Reliability</p> <p>Characterization of Resilience</p> <p>Architectural Principles and Concepts for Resilience</p> <p>Structural Resilience Quantification and Valuation</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 11: Cross-architecture Metrics</b></p> <p>Objectives</p> <p>Definition of Resilience</p> <p>Notional Capture of Resilience Adaptive Capacity</p> <p>Response Epoch: Adaptive Capacity on an Asset Level Development</p> <p>Adaptive Capacity on an Aggregated Level Development</p> <p>Cybersecurity Considerations</p> <p>Consideration of Resist Epoch (Inertia)</p> <p>Consideration of Recover and Restore Epochs</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>References        </p> <p><b>Part V: Resilience Application</b></p> <p><b>Ch 12: Introducing the Grid Game </b></p> <p>Objectives</p> <p>Introduction</p> <p>Download/Install the Game</p> <p>Play the Grid Game</p> <p>Fundamentals</p> <p>Evaluate the Grid Game and players (yourself and others)</p> <p>Play Together</p> <p>Improve the Game</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>References</p> <p><b>Ch 13: Cybersecurity Challenges </b></p> <p>Objectives</p> <p>Introduction</p> <p>Operation Technologies in the Power Grid</p> <p>Cyber Attacks to the Power Grid</p> <p>Research Efforts</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 14: Control Challenges </b></p> <p>Objectives</p> <p>Introduction</p> <p>Resiliency Challenges in Control Systems</p> <p>Resiliency Design Framework</p> <p>Resiliency for Decentralized Control Systems</p> <p>Conclusions and New Challenges</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 15: Human Challenges </b></p> <p>Objectives</p> <p>Introduction</p> <p>Experiential Learning and the Multidisciplinary Grid Game</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Part VI: Additional Design Considerations</b></p> <p><b>Ch 16: Interdependency Analysis </b></p> <p>Objectives</p> <p>Introduction</p> <p>Approaches to Infrastructure Dependency Analysis</p> <p>Bulk Power Systems Interdependency Case Studies</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Ch 17: Multi-agent Control Systems </b></p> <p>Objectives</p> <p>Introduction</p> <p>Control System Design</p> <p>Control System Application</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>Acknowledgements</p> <p>References</p> <p><b>Ch 18: Other Examples of Resilience Application </b></p> <p>Objectives</p> <p>Introduction</p> <p>Resilient Design Capacities</p> <p>Considerations for Resilient Design</p> <p>Summary</p> <p>Thoughtful Questions to Ensure Comprehension</p> <p>Further Reading</p> <p>References</p> <p><b>Part VII: Conclusions</b></p> <p><b>Ch 19: Summary and Challenge for the Future </b></p> <p>Introduction</p> <p>Resilience is Not a Design Layer, It is a Philosophy</p> <p>Resilience and the Road to Autonomous Systems</p> <p>References</p>
<p><b>Craig Rieger, PhD,</B> is Chief Control Systems Research Engineer at the Idaho National Laboratory. His research focus is on next generation resilient control systems.</p> <p><b>Ronald Boring, PhD,</B> is Researcher and Principal Investigator at Idaho National Laboratory. His primary research foci are on human reliability, human factors, and human-computer interaction forums. <p><b>Brian Johnson, PhD, </b>is University Distinguished Professor and Schweitzer Engineering Laboratories Endowed Chair in Power Engineering in the Department of Electrical and Computer Engineering at the University of Idaho. <p><b>Timothy McJunkin</B> is an Electrical Engineer at the Idaho National Laboratory. His primary research foci are on the development of interest resilient control of critical infrastructure, Smart Grid for renewable energy integration, and design of zero carbon microgrids.
<p><b>Master the fundamentals of resilient power grid control applications with this up-to-date resource from four industry leaders</b></p> <p><i>Resilient Control Architectures and Power Systems</i> delivers a unique perspective on the singular challenges presented by increasing automation in society. In particular, the book focuses on the difficulties presented by the increased automation of the power grid. The authors provide a simulation of this real-life system, offering an accurate and comprehensive picture of a how a power control system works and, even more importantly, how it can fail. <p>The editors invite various experts in the field to describe how and why power systems fail due to cyber security threats, human error, and complex interdependencies. They also discuss promising new concepts researchers are exploring that promise to make these control systems much more resilient to threats of all kinds. Finally, resilience fundamentals and applications are also investigated to allow the reader to apply measures that ensure adequate operation in complex control systems. <p>Among a variety of other foundational and advanced topics, you’ll learn about: <ul><li>The fundamentals of power grid infrastructure, including grid architecture, control system architecture, and communication architecture</li> <li>The disciplinary fundamentals of control theory, human-system interfaces, and cyber security</li> <li>The fundamentals of resilience, including the basis of resilience, its definition, and benchmarks, as well as cross-architecture metrics and considerations</li> <li>The application of resilience concepts, including cyber security challenges, control challenges, and human challenges</li> <li>A discussion of research challenges facing professionals in this field today</li></ul> <p>Perfect for research students and practitioners in fields concerned with increasing power grid automation, <i>Resilient Control Architectures and Power Systems</i> also has a place on the bookshelves of members of the Control Systems Society, the Systems, Man and Cybernetics Society, the Computer Society, the Power and Energy Society, and similar organizations.

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