Poster Abstract: Distributed Reasoning for Diagnosing Cascading Outages in Cyber Physical Energy Systems

2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS) Pub Date : 2016-04-11 DOI:10.1109/ICCPS.2016.7479113

A. Chhokra, A. Dubey, N. Mahadevan, G. Karsai

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Abstract

The power grid incorporates a number of protection elements such as distance relays that detect faults and prevent the propagation of failure effects from influencing the rest of system. However, the decision of these protection elements is only influenced by local information in the form of bus voltage/current (V-I) samples. Due to lack of system wide perspective, erroneous settings, and latent failure modes, protection devices often mis-operate and cause cascading effects that ultimately lead to blackouts. Blackouts around the world have been triggered or worsened by circuit breakers tripping, including the blackout of 2003 in North America, where the secondary/ remote protection relays incorrectly opened the breaker. Tools that aid the operators in finding the root cause of the problem on-line are required. However, high system complexity and the interdependencies between the cyber and physical elements of the system and the mis-operation of protection devices make the failure diagnosis a challenging problem.

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摘要:基于分布式推理的网络物理能源系统级联故障诊断

电网包含许多保护元件，例如距离继电器，用于检测故障并防止故障效应的传播影响系统的其余部分。然而，这些保护元件的决定仅受母线电压/电流(V-I)样本形式的局部信息的影响。由于缺乏系统全局视角、错误设置和潜在故障模式，保护装置经常误操作并引起级联效应，最终导致停电。世界各地的停电都是由断路器跳闸触发或恶化的，包括2003年北美的停电，其中二次/远程保护继电器错误地打开了断路器。需要能够帮助作业者在线查找问题根源的工具。然而，由于系统的高复杂性、网络和物理因素之间的相互依赖性以及保护装置的误操作，使得故障诊断成为一个具有挑战性的问题。

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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来源期刊

2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS)

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