Optimal Decision-Making to Charge Electric Vehicles in Heterogeneous Networks: Stackelberg Game Approach

Electric vehicles (EVs) are designed to improve the efficiency of energy and prevent the environment from being polluted, when they are widely and reasonably used in the transport system. However, due to the feature of EV’s batteries, the charging problem plays an important role in the application o...

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Bibliographic Details
Published inEnergies (Basel) Vol. 12; no. 2; p. 325
Main Authors Chen, Shijun, Chen, Huwei, Jiang, Shanhe
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 21.01.2019
Subjects
Algorithms
Batteries
Charging
Computer simulation
Decision making
demand uncertainty
Design
Efficiency
Electric vehicles
Electricity
Electricity distribution
Energy management
Equilibrium
Game theory
Games
heterogeneous networks
International conferences
Operators
Optimization
Pollution dispersion
power optimization
Power supply
Profits
Simulation
Smart grid technology
Software
Stackelberg game
Transportation systems
Utility functions
Wireless communications
Wireless networks
Italy
China
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Summary:Electric vehicles (EVs) are designed to improve the efficiency of energy and prevent the environment from being polluted, when they are widely and reasonably used in the transport system. However, due to the feature of EV’s batteries, the charging problem plays an important role in the application of EVs. Fortunately, with the help of advanced technologies, charging stations powered by smart grid operators (SGOs) can easily and conveniently solve the problems and supply charging service to EV users. In this paper, we consider that EVs will be charged by charging station operators (CSOs) in heterogeneous networks (Hetnet), through which they can exchange the information with each other. Considering the trading relationship among EV users, CSOs, and SGOs, we design their own utility functions in Hetnet, where the demand uncertainty is taken into account. In order to maximize the profits, we formulate this charging problem as a four-stage Stackelberg game, through which the optimal strategy is studied and analyzed. In the Stackelberg game model, we theoretically prove and discuss the existence and uniqueness of the Stackelberg equilibrium (SE). Using the proposed iterative algorithm, the optimal solution can be obtained in the optimization problem. The performance of the strategy is shown in the simulation results. It is shown that the simulation results confirm the efficiency of the model in Hetnet.
ISSN:1996-1073
1996-1073
DOI:10.3390/en12020325