Service capability evaluation of electric vehicle charging and battery swapping stations: A game theory‐based combination weighting method

Service capability evaluation of electric vehicle charging and battery swapping stations: A game theory‐based combination weighting method

Abstract The rapid development of electric vehicles (EVs) has made the construction and service capability evaluation of EV charging and battery swapping stations (CBSSs) more important. A comprehensive evaluation indicator system for the service capability evaluation of EV‐CBSSs is established, met...

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Bibliographic Details
Published in:Energy systems integration
Main Authors: Wu, Chuanshen, Shi, Qianyun, Gao, Shan, Wang, Yan
Format: Journal Article
Language:English
Published: 27-06-2024
Online Access:Get full text
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Summary:Abstract The rapid development of electric vehicles (EVs) has made the construction and service capability evaluation of EV charging and battery swapping stations (CBSSs) more important. A comprehensive evaluation indicator system for the service capability evaluation of EV‐CBSSs is established, meticulously outlining the critical aspects of operational efficiency, economy, convenience, and reliability, each with multiple indicators for thorough assessment. To address the shortcomings of individual evaluation methods in evaluating the service capability of EV‐CBSSs, the game theory‐based combination weighting (GTCW) method is adopted, which integrates the advantages of the analytic hierarchy process method, entropy weight method, and grey relation analysis method. Specifically, the weights for each indicator are obtained separately using these three evaluation methods, and then combined using the GTCW method to calculate the final weights. In case studies, the service capability for each EV‐CBSS is calculated and compared between these three individual methods and the proposed GTCW method. Simulation results validate that the proposed evaluation indicator system and GTCW method can offer a more comprehensive evaluation of the service capability for EV‐CBSSs, providing guiding suggestions for future construction plans.
ISSN:2516-8401
2516-8401
DOI:10.1049/esi2.12155