Multi-agent system based real-time control for standalone microgrid

2017 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2017-08-01 DOI:10.1109/ISITIA.2017.8124066

D. Leng, Kittichot Soontorntaweesub, S. Polmai

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引用次数: 2

Abstract

The energy crisis and environmental concern lead to widely use of renewable energy sources in form of microgrid. The intermittent nature of the microgrid's sources and the altering behaviors of loads result to unstable of the system's voltage and frequency as well as the system reliability. The purpose of this paper is to develop real-time control based decentralizing technique for handling the challenging issues of the microgrid. Two levels distributed control is proposed. A modify droop control and frequency restoration is implemented as low-level control. The upper-level, a multiagent system is developed and it is the main control method in the research. The agents are implemented using Boris based on C#.NET language. The multiagent system consists of four main agents such as CONTROL agent, DER Agent, RENEW agent and LOAD agent. To evaluate the control performance, the microgrid testbed has been built. The results prove the effectiveness of real-time control to stabilize, monitor, improve system reliability and provide the microgrid intelligent operation.

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基于多智能体系统的独立微电网实时控制

能源危机和环境问题促使可再生能源以微电网的形式得到广泛应用。微电网电源的间歇性和负荷的变化特性导致了系统电压和频率的不稳定以及系统的可靠性。本文的目的是开发基于实时控制的分散技术来处理微电网的挑战性问题。提出了两级分布式控制。采用修正下垂控制和频率恢复作为底层控制。上层是多智能体系统，它是研究的主要控制方法。代理使用基于c#的Boris实现。网络语言。多代理系统由四个主要代理组成，如CONTROL代理、DER代理、RENEW代理和LOAD代理。为评价其控制性能，搭建了微电网试验台。结果证明了实时控制对稳定、监控、提高系统可靠性和提供微电网智能化运行的有效性。

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2017 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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