A Multi-agent Control Method and Realization in Wind-Solar Hybrid Power Generation System

Shu-Yun Jia, Jiang Chang
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引用次数: 5

Abstract

artificial intelligence (AI) is an advanced control method. Agent technology is farther development of AI. Wind-solar hybrid power generation is a novel and promising power system. But because of randomicity and complexity of the climate, it makes wind-solar hybrid power generation system to be a complicated system. In this paper, we introduce advanced agent technology into the wind-solar hybrid power generation system. Then, based on multi-agent technology, we establish the decision-making model of wind-solar hybrid power generation system. According to its function, the whole system is divided into several agent modules and each agent module is again divided into some detailed agents. What is more, we realize system decision-making process by the flexible collaboration and communication of these agents. The scheme can be applied into sea-island, remote region, unmanned operation’ wind-solar energy hybrid power generation system and it can enhance power system’ intelligence. So it makes system more robust.
风光互补发电系统多智能体控制方法及实现
人工智能(AI)是一种先进的控制方法。Agent技术是人工智能的进一步发展。风光互补发电是一种新型的、有发展前途的电力系统。但由于气候的随机性和复杂性,使得风光互补发电系统成为一个复杂的系统。本文将先进的agent技术引入到风光互补发电系统中。然后,基于多智能体技术,建立了风光互补发电系统的决策模型。根据其功能,将整个系统划分为几个代理模块,每个代理模块又划分为一些详细的代理。通过这些智能体之间的灵活协作和沟通,实现了系统的决策过程。该方案可应用于海岛、偏远地区、无人操作的风能-太阳能混合发电系统,提高电力系统的智能化程度。所以它使系统更健壮。
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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