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Advances in electric power and energy : static state estimation / edited by Mohamed E El-Hawary, Dalhousie University.

Contributor(s): El-Hawary, M. E [editor.] | IEEE Xplore (Online Service) [distributor.] | John Wiley & Sons, Ltd [publisher.].
Material type: materialTypeLabelBookSeries: IEEE Press: Publisher: Hoboken, New Jersey : John Wiley & Sons, Inc., [2020]Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2020]Description: 1 PDF.Content type: text Media type: electronic Carrier type: online resourceISBN: 9781119480365.Subject(s): Electric power systems -- State estimationGenre/Form: Electronic books.Additional physical formats: Print version:: Advances in electric power and energyDDC classification: 621.319/1 Online resources: Abstract with links to resource Also available in print.
Contents:
Chapter 1: Introduction -- M. E. El-Hawary -- Chapter 2 : State estimation in power systems based on a mathematical programming approach -- Eduardo Caro and Araceli Hern'andez -- Chapter 3: System Stress and Cascading Blackouts -- Hyde M. Merrill and James W. Felte -- Chapter 4 : Model-based anomaly detection for power system state estimation -- Aditya Ashok, Manimaran Govindarasu, and Venkataramana Ajjarapu -- Chapter 5 : Protection, Control and Operation of Microgrids -- A P Sakis Meliopoulos,� Yu Liu Sungyun Choi, and George J Cokkinides -- Chapter 6: Distributed Robust Power System State Estimation -- Vassilis Kekatos; H. Zhu , G. Wang, and Georgios B. Giannakis -- Chapter 7: Robust Wide-Area Fault Visibility and Structural Observability in Power Systems with Synchronized Measurement Units -- Mert Korkali -- Chapter 8: A Hybrid Robust Power System State Estimator with Unknown Measurement Noise -- Junbo Zhao; Lamine Mili; and Massimo La Scala -- Chapter 9: Least-Trimmed-Absolute-Value State estimator -- Ibrahim Omar Habiballah, and Yuanhai Xia -- Chapter 10 : Probabilistic State Estimation in Distribution Networks -- Bernd Brinkmann; and Michael Negnevisky -- Chapter 11: Advanced distribution system state estimation in multi-area architectures -- Marco Pau, Paolo Attilio Pegoraro, Ferdinanda Ponci, and Sara Sulis -- Chapter 12: Hierarchical Multi-Area State Estimation -- Ye Guo; Lang Tong; Wenchuan Wu; Hongbin Sun; Boming Zhang -- Chapter 13: Parallel Domain-Decomposition-Based Distributed State Estimation for Large-Scale Power Systems -- Hadis Karimipour; Venkata Dinavahi -- Chapter 14: Dishonest Gauss Newton method based power system state estimation on a GPU -- Md. Ashfaqur Rahman; and Ganesh Kumar Venayagamoorthy
Summary: "A static state estimator (SSE) is a collection of digital computer programs which convert telemetered data into a reliable estimate of the transmission network structure and state by accounting for small random metering-communication errors; uncertainties in system parameter values; bad data due to transients and meter-communication failures; and errors in the network structure due to faulty switch-circuit breaker status information. Failure of SSE at System Operators' facilities has been cited as one of the primary causes for some major blackouts over the two decades"-- Provided by publisher.
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Includes bibliographical references and index.

Chapter 1: Introduction -- M. E. El-Hawary -- Chapter 2 : State estimation in power systems based on a mathematical programming approach -- Eduardo Caro and Araceli Hern'andez -- Chapter 3: System Stress and Cascading Blackouts -- Hyde M. Merrill and James W. Felte -- Chapter 4 : Model-based anomaly detection for power system state estimation -- Aditya Ashok, Manimaran Govindarasu, and Venkataramana Ajjarapu -- Chapter 5 : Protection, Control and Operation of Microgrids -- A P Sakis Meliopoulos,� Yu Liu Sungyun Choi, and George J Cokkinides -- Chapter 6: Distributed Robust Power System State Estimation -- Vassilis Kekatos; H. Zhu , G. Wang, and Georgios B. Giannakis -- Chapter 7: Robust Wide-Area Fault Visibility and Structural Observability in Power Systems with Synchronized Measurement Units -- Mert Korkali -- Chapter 8: A Hybrid Robust Power System State Estimator with Unknown Measurement Noise -- Junbo Zhao; Lamine Mili; and Massimo La Scala -- Chapter 9: Least-Trimmed-Absolute-Value State estimator -- Ibrahim Omar Habiballah, and Yuanhai Xia -- Chapter 10 : Probabilistic State Estimation in Distribution Networks -- Bernd Brinkmann; and Michael Negnevisky -- Chapter 11: Advanced distribution system state estimation in multi-area architectures -- Marco Pau, Paolo Attilio Pegoraro, Ferdinanda Ponci, and Sara Sulis -- Chapter 12: Hierarchical Multi-Area State Estimation -- Ye Guo; Lang Tong; Wenchuan Wu; Hongbin Sun; Boming Zhang -- Chapter 13: Parallel Domain-Decomposition-Based Distributed State Estimation for Large-Scale Power Systems -- Hadis Karimipour; Venkata Dinavahi -- Chapter 14: Dishonest Gauss Newton method based power system state estimation on a GPU -- Md. Ashfaqur Rahman; and Ganesh Kumar Venayagamoorthy

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"A static state estimator (SSE) is a collection of digital computer programs which convert telemetered data into a reliable estimate of the transmission network structure and state by accounting for small random metering-communication errors; uncertainties in system parameter values; bad data due to transients and meter-communication failures; and errors in the network structure due to faulty switch-circuit breaker status information. Failure of SSE at System Operators' facilities has been cited as one of the primary causes for some major blackouts over the two decades"-- Provided by publisher.

Also available in print.

Mode of access: World Wide Web

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