The recent developments in the field of energy and technology have altered the transportation sector in numerous ways. One of the significant changes is the emergence of Electric Vehicles (EVs). The push for eco-friendly mobility has emphasized the role of EV batteries in ensuring performance and sustainability. This research paper emphasizes the pressing need and relevance of well-maintained electric vehicle batteries, especially with reference to critical parameters such as State of Charge (SoC), and State of Health (SoH). The paper explores the integration and potential of AI based virtual assistant in transforming battery management. The AI-driven virtual assistant helps in predicting the State of Charge and State of Health, as well as forecasting energy consumption along with assessing the battery’s recyclability. It also incorporates voice-controlled insights, and propagates real-time charge information along with recommending nearby charging stations, and provides advise on the optimal charge time. The research aims to explore the significant role of incorporating AI virtual assistant in enhancing battery performance for electric vehicles. The advantages from these advancements are expected to play a key role in the establishment of a more efficient and sustainable electric transportation system.

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Optimizing Battery Management Through AI Based Virtual Assistant in Electric Vehicles

  • Anubhav Agrawal,
  • Ananya Aggarwal,
  • Aditya Rastogi,
  • Ranbir Singh,
  • Pradeep Kumar Arya

摘要

The recent developments in the field of energy and technology have altered the transportation sector in numerous ways. One of the significant changes is the emergence of Electric Vehicles (EVs). The push for eco-friendly mobility has emphasized the role of EV batteries in ensuring performance and sustainability. This research paper emphasizes the pressing need and relevance of well-maintained electric vehicle batteries, especially with reference to critical parameters such as State of Charge (SoC), and State of Health (SoH). The paper explores the integration and potential of AI based virtual assistant in transforming battery management. The AI-driven virtual assistant helps in predicting the State of Charge and State of Health, as well as forecasting energy consumption along with assessing the battery’s recyclability. It also incorporates voice-controlled insights, and propagates real-time charge information along with recommending nearby charging stations, and provides advise on the optimal charge time. The research aims to explore the significant role of incorporating AI virtual assistant in enhancing battery performance for electric vehicles. The advantages from these advancements are expected to play a key role in the establishment of a more efficient and sustainable electric transportation system.