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作 者:Bin Deng Xiaosheng Xu Mengshi Li Tianyao Ji Q.H.Wu
机构地区:[1]School of Electric Power Engineering,South China University of Technology,Guangzhou 510640,China
出 处:《CSEE Journal of Power and Energy Systems》2024年第6期2564-2576,共13页中国电机工程学会电力与能源系统学报(英文)
摘 要:Although integrated energy systems(IES)are currently modest in size,their scheduling faces strong challenges,stemming from both wind generation disturbances and the system’s complexity,including intrinsic heterogeneity and pronounced non-linearity.For this reason,a two-stage algorithm called the Multi-Objective Group Search Optimizer with Pre-Exploration(MOGSOPE)is proposed to efficiently achieve the optimal solution under wind generation disturbances.The optimizer has an embedded trainable surrogate model,Deep Neural Networks(DNNs),to explore the common features of the multiscenario search space in advance,guiding the population toward a more efficient search in each scenario.Furthermore,a multiscenario Multi-Attribute Decision Making(MADM)approach is proposed to make the final decision from all alternatives in different wind scenarios.It reflects not only the decisionmaker’s(DM)interests in other indicators of IES but also their risk preference for wind generation disturbances.A case study conducted in Barry Island shows the superior convergence and diversity of MOGSOPE in comparison to other optimization algorithms.With respect to numerical performance metrics HV,IGD,and SI,the proposed optimizer exhibits improvements of 3.1036%,4.8740%,and 4.2443%over MOGSO,and 4.2435%,6.2479%,and 52.9230%over NSGAII,respectively.What’s more,the effectiveness of the multi-scenario MADM in making final decisions under uncertainty is demonstrated,particularly in optimal scheduling of IES under wind generation disturbances.
关 键 词:Decision making integrated energy systems(IES) two-stage algorithm wind generation disturbances
分 类 号:TM614[电气工程—电力系统及自动化]
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