A Multi-Agent Design for Power Distribution Systems Automation.

机译：配电系统自动化的多代理设计。

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A new Multi Agent System (MAS) design for fault location, isolation and restoration in power distribution systems is presented. In proposed approach, when there is a fault in the Power Distribution System (PDS), MAS quickly isolates the fault and restores the service to fault-free zones. Hierarchical coordination strategy is introduced to manage the agents which integrate the advantages of both centralized and decentralized coordination strategies. In this framework, Zone Agent (ZA) locate and isolate the fault based on the locally available information and assist the Feeder Agent (FA) for reconfiguration and restoration. FA can solve the restoration problem using the existing algorithms for the 0-1 Knapsack problem.;A novel Q-learning mechanism is also introduced to support the FAs in decision making for restoration. Also a distributed MAS-Based Load Shedding (LS) technique has been used to supply as many of higher priority customers as possible, in case there is more demand than generation. The design is illustrated by the use of simulation case studies for fault location, isolation and restoration on West Virginia Super Circuit (WVSC) and hardware implementation for fault location and isolation in a laboratory platform. The results from the case studies indicate the performance of proposed MAS designs.

机译：提出了一种新的Multi Agent System（MAS）设计，用于配电系统中的故障定位，隔离和恢复。在提出的方法中，当配电系统（PDS）中出现故障时，MAS可以快速隔离故障并将服务恢复到无故障区域。引入了分层协调策略来管理代理，这些代理集成了集中式和分散式协调策略的优点。在此框架中，区域代理（ZA）根据本地可用信息定位并隔离故障，并协助馈线代理（FA）进行重新配置和恢复。 FA可以使用0-1背包问题的现有算法解决恢复问题。;还引入了一种新颖的Q学习机制来支持FA进行恢复决策。同样，在需求多于发电的情况下，基于分布式MAS的负荷削减（LS）技术已被用来为尽可能多的更高优先级客户提供服务。通过在西弗吉尼亚超级电路（WVSC）上进行故障定位，隔离和恢复的仿真案例研究，以及在实验室平台中进行故障定位和隔离的硬件实现，对设计进行了说明。案例研究的结果表明了提出的MAS设计的性能。

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作者
Ghorbani, M. Jawad.;
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作者单位

West Virginia University.;

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授予单位 West Virginia University.;
学科 Engineering Electronics and Electrical.;Energy.
学位 Ph.D.
年度 2014
页码 134 p.
总页数 134
原文格式 PDF
正文语种 eng
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机译：配电自动化。电力公用事业未来的潜在战略

A Multi-Agent Design for Power Distribution Systems Automation.

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