Identifying Vulnerable Set of Cascading Failure in Power Grid Using Deep Learning Framework

2021 IEEE 17th International Conference on Automation Science and Engineering (CASE) Pub Date : 2021-08-23 DOI:10.1109/CASE49439.2021.9551411

Sizhe He, Yadong Zhou, Jiang Wu, Zhanbo Xu, X. Guan, Wei Chen, Ting Liu

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Abstract

The cascading failure is a typical failure propagation process which can cause significant consequence to the power system. It can be triggered by the vulnerable set composed of combinations of transmission lines with specific failures. So it is of great significance to identify the vulnerable set. In this paper, we propose an identification model for the vulnerable set under deep learning framework. The main part of the model consists of autoencoder and classification network for reducing dimensionality and identifying vulnerable set respectively. The model is trained by the data generated from cascading failure simulation platform. We conduct experiments on IEEE 30-Bus and 200-Bus systems with different initial failures to validate the identification and generalization capability. And the time consumption is also discussed to demonstrate the efficiency of the model. All of the indicators prove that the model is capable of identifying the vulnerable set effectively.

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利用深度学习框架识别电网级联故障脆弱集

级联故障是一种典型的故障传播过程，会对电力系统造成严重的后果。它可以由具有特定故障的输电线路组合组成的脆弱集触发。因此，识别脆弱集具有十分重要的意义。本文提出了一种深度学习框架下的脆弱集识别模型。该模型的主体部分由自动编码器和分类网络组成，分别用于降维和识别脆弱集。利用级联故障仿真平台生成的数据对模型进行训练。我们在不同初始故障的IEEE 30-Bus和200-Bus系统上进行了实验，以验证识别和泛化能力。并对时间消耗进行了分析，以证明该模型的有效性。所有指标都证明了该模型能够有效地识别脆弱集。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE 17th International Conference on Automation Science and Engineering (CASE)

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