Paper Key : IRJ************094
Author: Saisagar Ambekar,Prof. Vandana P. Tonde,Ankit Patle,Paras Batra,Mangesh Lakade
Date Published: 11 Nov 2024
Abstract
ABSTRACTThe shift towards Electric Vehicles (EVs) is driven by the urgent need to address environmental concerns and reduce our reliance on fossil fuels. Our project, a comprehensive Electric Vehicle Station Management System (EVSMS), aims to contribute to this transition. This survey explores the design and implementation of our EVSMS, highlighting its role in promoting the adoption of EVs over traditional fuel-powered vehicles. Our EVSMS offers features such as user registration, owner dashboards, and an admin panel, making it user-friendly for both EV owners and station operators. Through integration with the Google Maps API, users can easily locate nearby charging stations, but what makes our system stand out is its real-time station occupancy information. This feature not only aids users in finding available charging slots but also prompts them to consider alternative stations when their preferred choices are occupied. In addition to enhancing convenience, our system supports slot booking with initial payment, streamlining the charging process. Furthermore, it keeps users informed through notifications about station availability and promotions, reinforcing the advantages of EV usage. Our project emphasizes the significance of EVs as a sustainable alternative to traditional fuel powered vehicles. By offering a user-friendly, technologically advanced EVSMS, we contribute to the broader goal of reducing carbon emissions and mitigating environmental impact, thereby making EVs a more attractive choice. This survey provides insights into our system's design and its alignment with the global transition towards sustainable, eco-friendly mobility. Keywords: Electric Vehicles (EVs), Electric Vehicle Station Management System (EVSMS), Slot Booking, Map, chatbotINTRODUCTIONIn recent years, global warming and the depletion of fossil fuels due to mass consumption of energy resource has become an increasingly recognized world problem1. To control these problems, the installation of renewable energy systems, which do not depend on fossil fuels, is an effective countermeasure. In Japan, since the government has introduced Feed-in tariffs(Fit), the introduction of photovoltaic systems has been expanded rapidly2. However, the output power from increased number of photovoltaic systems is extremely large and tends to have a bad effect on the system frequency and distribution voltage. To address this problem, the Japanese government has begun reconsidering the Fit system. Adding to this problem, the cost of PV installation is decreasing year by year. Therefore, in the future, the price of PV power is expected to decrease greatly. In this study, EV charging stations that near-exclusively purchases power from PV systems on smart houses and sells power to electric vehicles (EV) and smart houses is proposed as an aggregator. The EV charging station has the need to utilize a fixed battery for electricity trading5.I.As we know EV Automobiles going to be future of the world but these machines need charging stations for charging.II.In this project work, system will provide the platform to book charging slots to available charging station according to need of customer. III.In this system user will get facilities like AI chatbot to book station via vocal commands, Maps features for direction sensing, Digital payment option, Notifications, Mails and SMS of each activity.
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