Resilience quantification model for cyber-physical power systems

IF 1.7 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS IET Cyber-Physical Systems: Theory and Applications Pub Date : 2024-06-14 DOI:10.1049/cps2.12098

Mohammad AlMuhaini

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Abstract

As power grids develop, their structure becomes more complex, multi-dimensional, and digitalised—hence, it is referred to as cyber-physical infrastructure. The sensitivity of grids to extreme cyber and physical events is becoming a hot research topic due to the increasing rate of such events and their catastrophic consequences. To produce accurate and comprehensive measures, modelling and assessing the resilience of power systems must include both the physical and cyber domains. However, resilience quantification models that include both domains have not received sufficient attention. A novel resilience model and quantification framework are proposed. The model is based on a resilience trapezoid that depicts the different phases of the cyber and physical domains during severe natural or anthropogenic events. A resilience index is also proposed to measure the resilience levels of local nodes and entire systems, including various factors that contribute to the modelled degradation states. Severe weather conditions were modelled to examine the impact of this category of events on the proposed resilience model.

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网络物理电力系统复原力量化模型

随着电网的发展，其结构变得更加复杂、多维和数字化，因此被称为网络物理基础设施。由于极端网络和物理事件及其灾难性后果的发生率越来越高，电网对此类事件的敏感性正成为一个热门研究课题。为了得出准确而全面的测量结果，电力系统复原力的建模和评估必须包括物理和网络两个领域。然而，包含这两个领域的复原力量化模型尚未得到足够重视。本文提出了一个新颖的复原力模型和量化框架。该模型基于复原力梯形图，描述了在严重自然或人为事件中网络和物理领域的不同阶段。此外，还提出了一种复原力指数，用于衡量局部节点和整个系统的复原力水平，包括导致模拟退化状态的各种因素。模拟了恶劣天气条件，以研究这类事件对拟议复原力模型的影响。

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