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Leveraging Network Topology Optimization to Strengthen Power Grid Resilience Against Cyber-Physical Attacks | IEEE Journals & Magazine | IEEE Xplore

Leveraging Network Topology Optimization to Strengthen Power Grid Resilience Against Cyber-Physical Attacks


Abstract:

The contemporary power systems are facing a growing level of risks due to potential deliberate attacks by adversaries. Strengthening the resilience of power grids against...Show More

Abstract:

The contemporary power systems are facing a growing level of risks due to potential deliberate attacks by adversaries. Strengthening the resilience of power grids against malicious cyber-physical attacks is emerging as a critical task considering the importance of power systems to the entire society. In this article, a bilevel optimization model is developed to formulate the coordinated cyber-physical attacks against the power grids. In order to enhance the resilience of the power systems, a networked topology optimization (NTO) based model is proposed to mitigate the coordinated cyber-physical attacks. Resilience metrics are proposed to evaluate the power system resilience against the coordinated cyber-physical attacks. Case studies were conducted on the modified IEEE 57-bus and 118-bus systems to illustrate the impacts of coordinated cyber-physical attacks as well as validate the proposed NTO based approach. The results of the case studies show that the proposed NTO based mitigation strategy can effectively reduce the load loss of the power system under the coordinated cyber-physical attacks. The resilience of the system is improved by the proposed NTO based approach compared with the conventional optimal redispatch (OR) and optimal transmission switching (OTS) based remedial methods.
Published in: IEEE Transactions on Smart Grid ( Volume: 12, Issue: 2, March 2021)
Page(s): 1552 - 1564
Date of Publication: 01 October 2020

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