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Fault Detection and Isolation in Smart-Grid Networks of Intelligent Power Routers Modeled as Probabilistic Boolean Networks

Author

Listed:
  • Pedro J. Rivera Torres
  • Carlos Gershenson García
  • Samir Kanaan Izquierdo
  • Jesus M. Munoz-Pacheco

Abstract

A self-organizing complex-network modeling method, probabilistic Boolean networks, is presented as a model-based diagnostic system for detecting and isolating different types of faults, failures, and modes of operation in which a network of intelligent power routers is deployed over a standard power test case: the Western System Coordinating Council 9 Bus System. Such a system allows designers and engineering professionals to make educated decisions pertaining to the design of smart-grid systems endowed with intelligent power routers. There is a recurrent necessity to design reliable and fault-tolerant smart power systems, maintaining adequate operation and adherence to performance specifications, while keeping costs at the minimum. This diagnostics system will help achieve such goals: better design through thorough analysis of the conditions that lead to a fault on a smart grid, proper detection of these faults, and isolation of the respective assets.

Suggested Citation

  • Pedro J. Rivera Torres & Carlos Gershenson García & Samir Kanaan Izquierdo & Jesus M. Munoz-Pacheco, 2023. "Fault Detection and Isolation in Smart-Grid Networks of Intelligent Power Routers Modeled as Probabilistic Boolean Networks," Complexity, Hindawi, vol. 2023, pages 1-12, December.
  • Handle: RePEc:hin:complx:6690805
    DOI: 10.1155/2023/6690805
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