In this paper, an electric vehicle (EV) charging competition, among EV aggregators that perform coordinated EV charging, is explored while taking into consideration potential non-ideal actions of the aggregators. In the coordinated EV charging strategy presented in this paper, each aggregator determines EV charging start time and charging energy profiles to minimize overall EV charging energy cost by including consideration of the actions of the neighboring aggregators. The competitive interactions of the aggregators are modeled by developing a two-stage non-cooperative game among the aggregators. The game is then studied under prospect theory to examine the impacts of non-ideal actions of the aggregators in selecting EV charging start times according to subjectively evaluating their opponents’ actions. It is shown that the non-cooperative interactions among the aggregators lead to a subgame perfect $\epsilon $ -Nash equilibrium when the game is played with either ideal, or non-ideal, actions of the aggregators. A case study presented demonstrates that the benefits of the coordinated EV charging strategy, in terms of energy cost savings and peak-to-average ratio reductions, are significantly resilient to non-ideal actions of the aggregators.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Game-Theoretic Electric Vehicle Charging Management Resilient to Non-Ideal User Behavior


    Contributors:


    Publication date :

    2018-11-01


    Size :

    1730513 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English



    A Comprehensive Game-Theoretic Model for Electric Vehicle Charging Station Competition

    Zavvos, Efstathios / Gerding, Enrico H. / Brede, Markus | IEEE | 2022


    Dynamic Game Theoretic Electric Vehicle Decision Making

    Ouyang, Qianyu / Jia, Xianzhe | SAE Technical Papers | 2024




    ELECTRIC VEHICLE CHARGING MANAGEMENT

    BENNETT TYLER JENNINGS / VILLAGRA BEN / ALLAMSETTY CHAKRI et al. | European Patent Office | 2024

    Free access