Innovative energy distribution models are required for emergency or on-the-go energy sustenance due to the growing popularity of electric vehicles (EVs). The completed system enables the first wire-free, real-time transfer of both energy and funds, as well as authentication, between autonomous Electric Vehicles (EVs). This is essential for efficient and effective Vehicle-to-Vehicle (V2V) charging. The system has implemented UART (Universal Asynchronous Receiver-Transmitter) protocol to facilitate efficient and low latency vehicle-to-vehicle communication. This allows real-time modifications to charging parameters like amount, time, and costs. To secure transactions and authenticate users, the vehicle verification system incorporates the Twilio API for sending OTPs (One-time Passwords) to Verified Car Owners. A Python-based GUI (Graphical User Interface) has been designed to monitor system status, initiate charging, and automate payment processing. Traceability and data integrity are ensured through the processing and logging of every transaction. The combination of the GUI and the backend logic with external API services enables seamless user interactions. This architecture encourages the creation of a decentralised EV energy-sharing marketplace and decentralised energy transfer system. This is a first of its kind for V2V charging and communication and presents a novel approach to trust management, User-to-Vehicle (U2V) interactions, and eco-friendly energy solutions.

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Secure, Real-Time Wireless Energy Transfer Between Autonomous Electric Vehicles with an Integrated Payment and Authentication Network

  • R. Aravinda Raj,
  • P. Malathy,
  • M. Isai Vani,
  • C. Sonia,
  • K. N. Aswini

摘要

Innovative energy distribution models are required for emergency or on-the-go energy sustenance due to the growing popularity of electric vehicles (EVs). The completed system enables the first wire-free, real-time transfer of both energy and funds, as well as authentication, between autonomous Electric Vehicles (EVs). This is essential for efficient and effective Vehicle-to-Vehicle (V2V) charging. The system has implemented UART (Universal Asynchronous Receiver-Transmitter) protocol to facilitate efficient and low latency vehicle-to-vehicle communication. This allows real-time modifications to charging parameters like amount, time, and costs. To secure transactions and authenticate users, the vehicle verification system incorporates the Twilio API for sending OTPs (One-time Passwords) to Verified Car Owners. A Python-based GUI (Graphical User Interface) has been designed to monitor system status, initiate charging, and automate payment processing. Traceability and data integrity are ensured through the processing and logging of every transaction. The combination of the GUI and the backend logic with external API services enables seamless user interactions. This architecture encourages the creation of a decentralised EV energy-sharing marketplace and decentralised energy transfer system. This is a first of its kind for V2V charging and communication and presents a novel approach to trust management, User-to-Vehicle (U2V) interactions, and eco-friendly energy solutions.