Identification of charging behavior characteristic for large-scale heterogeneous electric vehicle fleet 被引量：7

Identification of charging behavior characteristic for large-scale heterogeneous electric vehicle fleet

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摘要 This paper aims to accurately identify parameters of the natural charging behavior characteristic(NCBC)for plug-in electric vehicles(PEVs) without measuring any data regarding charging request information of PEVs. To this end, a data-mining method is first proposed to extract the data of natural aggregated charging load(ACL) from the big data of aggregated residential load. Then, a theoretical model of ACL is derived based on the linear convolution theory. The NCBC-parameters are identified by using the mined ACL data and theoretical ACL model via the derived identification model. The proposed methodology is cost-effective and will not expose the privacy of PEVs as it does not need to install sub-metering systems to gather charging request information of each PEV. It is promising in designing unidirectional smart charging schemes which are attractive to power utilities. Case studies verify the feasibility and effectiveness of the proposed methodology. This paper aims to accurately identify parameters of the natural charging behavior characteristic(NCBC)for plug-in electric vehicles(PEVs) without measuring any data regarding charging request information of PEVs. To this end, a data-mining method is first proposed to extract the data of natural aggregated charging load(ACL) from the big data of aggregated residential load. Then, a theoretical model of ACL is derived based on the linear convolution theory. The NCBC-parameters are identified by using the mined ACL data and theoretical ACL model via the derived identification model. The proposed methodology is cost-effective and will not expose the privacy of PEVs as it does not need to install sub-metering systems to gather charging request information of each PEV. It is promising in designing unidirectional smart charging schemes which are attractive to power utilities. Case studies verify the feasibility and effectiveness of the proposed methodology.

作者 Peng LIU Jilai YU

机构地区 Department of Electrical Engineering

出处《Journal of Modern Power Systems and Clean Energy》 SCIE EI 2018年第3期567-581,共15页 现代电力系统与清洁能源学报（英文）

基金 supported by the NSFCRCUK_EPSRC(No.51361130153) the National Natural Science Foundation of China(No.51377035)

关键词 PLUG-IN ELECTRIC vehicle Natural CHARGING behavior characteristic DATA-MINING Aggregated CHARGING load Theoretical model Parameter IDENTIFICATION HETEROGENEOUS Plug-in electric vehicle Natural charging behavior characteristic Data-mining Aggregated charging load Theoretical model Parameter identification Heterogeneous

分类号 TM910.6 [电气工程—电力电子与电力传动]

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