一种高效的智能电网FDIRSY故障检测与恢复模拟器

2015 International Conference on Pervasive and Embedded Computing and Communication Systems (PECCS) Pub Date : 2015-02-11 DOI:10.5220/0005245001320139

Syrine Ben Meskina, N. Doggaz, M. Khalgui

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引用次数: 6

摘要

本文主要研究电力智能电网中的故障和故障。提出了一种新颖的基于故障分类的电力系统恢复多智能体方法。为此，我们提出了优势断裂和等效断裂的分类。该分类具有优化电力系统恢复任务的优点。为了测试和验证我们的方法，我们开发了一个名为FDIRSY(故障检测、隔离和恢复系统)的模拟器。实验研究表明，由于移动代理的使用，我们的方法确保了从现有的解中搜索到最优解。这些代理具有评估所有现有替代方案的优点，同时降低了通信成本(就交换的消息而言)。我们证明了我们的方法在所需的时间、要执行的操作以及要解决的故障方面是有益的，这要归功于所建议的故障分类。

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An efficient simulator for fault detection and recovery in smart grids FDIRSY

This research paper deals with failures and faults in power smart grids. We propose an original multi-agent approach for power system recovery based on fault classification. For that, we propose the classification of faults as dominant or equivalent ones. This classification has the advantage of optimizing the task of power system recovery. To test and validate our approach, we develop a simulator, named FDIRSY (Fault Detection, Isolation and Recovery SYstem). The experimental study showed that our approach ensures the search for the best solution from the existing ones thanks to the use of mobile agents. These agents have the advantage of evaluating all the existing alternatives while reducing the communication cost (in terms of exchanged messages). We demonstrate that our approach is gainful in terms of required times, actions to be performed as well as the faults to be resolved thanks to the proposed fault classification.

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2015 International Conference on Pervasive and Embedded Computing and Communication Systems (PECCS)

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