电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2012年
2期
257-263
,共7页
峰谷分时电价%多智能体技术%用户响应%交互
峰穀分時電價%多智能體技術%用戶響應%交互
봉곡분시전개%다지능체기술%용호향응%교호
time-of-use (TOU) price%multi-agent technology%user response%interaction
科学制定峰谷分时电价政策,有利于提高系统可靠性与经济性。基于多智能体技术,提出了智能体系统(multi.agentsystem,MAS)总体框图,阐述了供电智能体、用户智能体和政府部门智能体的学习过程及其相互影响,结合电量电价弹性矩阵,考虑了不同用户的用电和响应特点以及用户智能体内部的相互影响。仿真过程可以动态显示供电智能体的调整动作、用户智能体的响应行为和负荷越限情况,以及政府部门智能体的干预行为。仿真结果表明:根据文中模型获得的峰谷分时电价策略具有更好的“移峰填谷”效果,兼顾供需双方的经济利益和用户用电习惯,供电、用户、政府智能体间实现信息共享。
科學製定峰穀分時電價政策,有利于提高繫統可靠性與經濟性。基于多智能體技術,提齣瞭智能體繫統(multi.agentsystem,MAS)總體框圖,闡述瞭供電智能體、用戶智能體和政府部門智能體的學習過程及其相互影響,結閤電量電價彈性矩陣,攷慮瞭不同用戶的用電和響應特點以及用戶智能體內部的相互影響。倣真過程可以動態顯示供電智能體的調整動作、用戶智能體的響應行為和負荷越限情況,以及政府部門智能體的榦預行為。倣真結果錶明:根據文中模型穫得的峰穀分時電價策略具有更好的“移峰填穀”效果,兼顧供需雙方的經濟利益和用戶用電習慣,供電、用戶、政府智能體間實現信息共享。
과학제정봉곡분시전개정책,유리우제고계통가고성여경제성。기우다지능체기술,제출료지능체계통(multi.agentsystem,MAS)총체광도,천술료공전지능체、용호지능체화정부부문지능체적학습과정급기상호영향,결합전량전개탄성구진,고필료불동용호적용전화향응특점이급용호지능체내부적상호영향。방진과정가이동태현시공전지능체적조정동작、용호지능체적향응행위화부하월한정황,이급정부부문지능체적간예행위。방진결과표명:근거문중모형획득적봉곡분시전개책략구유경호적“이봉전곡”효과,겸고공수쌍방적경제이익화용호용전습관,공전、용호、정부지능체간실현신식공향。
It is favorable to improve reliability and economy of power system to reasonable draft the policy of time-of-use (TOU). Based on multi-agent technology, a block diagram of multi-agent system (MAS) is proposed, and the learning process of multi-agents for power supply branch, consumers and government department as well as the interaction among them are expounded. Combining with elastic matrices of electricity price and quantity of electricity, the features of power consumption and response of different consumers as well as the interaction within the multi-agent of consumers are taken into account. Simulation process can dynamically reveal the regulation within the multi-agent of power supply, the response behavior within the multi-agent of consumers and the out-of-limit load and the behavioral Intervention from the multi-agent of govemment department. Simulation results show that adopting the proposed TOU pricing strategy a better peak load shifting effect can be achieved; economic benefit of both sides and the power consumption habit of users can be simultaneously considered; the information sharing among power supply branch, consumers and government department can be implemented.