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In this work is proposed the design of a system to create and handle Electric Vehicles (EV) charging procedures, based on intelligent processes.Due to the electrical power distribution network limitation and absence of smart meter devices, Electric Vehicles charging should be performed in a balanced way, taking into account past experience, weather information based on data mining, and simulation approaches.In order to allow information exchange and to help user mobility, it was also created a mobile application to assist the EV driver in these processes.This system also explores the new paradigm of Electrical Markets (EM), with deregulation of electricity production and use, in order to obtain the best conditions for commercializing electrical energy.Electric vehicle (EV) wireless charging using radio-frequency identification (RFID) is a novel technology that enables the charging of electric vehicles without the need for wires or cables.It offers numerous benefits, including increased convenience, efficiency, and safety, and has the potential to significantly reduce the environmental impact of transportation.The demand for electric vehicles (EVs) has been steadily increasing as society strives towards sustainable transportation solutions.To meet the charging needs of these vehicles, an efficient and reliable AC electric vehicle charger with a power rating of 3.3 kilowatts (kW) has been developed.This paper presents a comprehensive abstract outlining the key features, design principles, and advantages of the 3.3kW AC electric vehicle charger.
Gopinath et al. (Thu,) studied this question.
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