Journal of Electrical Engineering and Automation
IRO Journals
Volume 7 — Issue 4 — December 2025

Smart Vehicle-to-Vehicle Wireless Charging System with IoT-Based Location Tracking

https://doi.org/10.36548/jeea.2025.4.003
Gayathri Priya S.
Department of Electronics and Communication Engineering, R. M. D. Engineering College, Anna University, Kavaraipettai
Lokesh M.
Department of Electronics and Communication Engineering, R. M. D. Engineering College, Anna University, Kavaraipettai
Tejesh P.
Department of Electronics and Communication Engineering, R. M. D. Engineering College, Anna University, Kavaraipettai
Baluchandu P.
Department of Electronics and Communication Engineering, R. M. D. Engineering College, Anna University, Kavaraipettai
Sravan P.
Department of Electronics and Communication Engineering, R. M. D. Engineering College, Anna University, Kavaraipettai
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How to Cite

S., Gayathri Priya, Lokesh M., Tejesh P., Baluchandu P., and Sravan P. 2026. “Smart Vehicle-to-Vehicle Wireless Charging System With IoT-Based Location Tracking”. Journal of Electrical Engineering and Automation 7 (4): 304-20. https://doi.org/10.36548/jeea.2025.4.003.
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Keywords

— Wireless Power Transfer
— Vehicle-to-Vehicle Energy Sharing
— IoT-Based Tracking
— Real- Time Charging Monitoring
— Smart Electric Vehicle Charging
Published: 30-01-2026

Abstract

The increased use of Electric Vehicles (EVs) provides smart charging solutions to prevent limitations and dependence on fixed charging stations. This research work presents a Smart Vehicle-to-Vehicle (V2V) wireless charging system with IoT based location tracking to allow direct energy transmission between vehicles. This system integrates a dual-switch method to control the energy transfer. One switch will initiate a charging request and the other switch will allow or reject the request. The Wireless Power Transfer (WPT) method is used for efficient power transmission and an ESP32 microcontroller allows real-time data collection and system management. The main hardware components used in this research are a voltage and current sensor, a temperature sensor, and a GPS module for monitoring energy flow, safety and tracking the vehicle’s location. This work also improves the charging range, reduces dependency and allows decentralized energy transmission. This study provides a cost effective solution to improve EV charging performance and access by combining IoT technology with wireless charging.

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