Vehicle-to-Vehicle (V2V) communication is an emerging technology aimed at improving road safety and traffic efficiency through real-time data exchange between vehicles. However, conventional systems suffer from limitations such as lack of integration with safety mechanisms, inefficient charging systems, and absence of thermal management in electric vehicles. This paper proposes a smart integrated system that combines V2V communication, RFID-based wireless charging, and temperature monitoring. The system utilizes Light Dependent Resistor (LDR) sensors for short-range communication, RFID technology for controlled wireless charging, and temperature sensors to monitor battery conditions. An automatic cooling mechanism is activated when overheating is detected. The system is implemented using microcontrollers and embedded programming. Experimental results demonstrate improved safety, energy efficiency, and reliability, making the proposed system suitable for intelligent transportation applications.

This paper presents an integrated Vehicle-to-Vehicle ,communication system that enhances safety and efficiency in electric vehicles. By combining communication, wireless charging, and temperature monitoring into a single system, the proposed solution addresses several challenges faced by existing systems. The implementation results demonstrate that the system is reliable, cost-effective, and suitable for practical applications in smart transportation systems.The implemented V2V system provides a comprehensive solution for modern electric vehicles, successfully combining communication, safety, and energy management.Future work could involve the integration of 5G networks for longer-range communication.

[1].D. Poljak, M. Cvetkovi´c, and Z. Blaˇzevi´c, ”Human Exposure to Electric Fields Generated by WPT Technology for Charging Electric Vehicles”,2025. [2].D. Poljak and M. Cvetkovi´c, ”Exposure of Humans to Magnetic Fields Generated by Inductive Power Transfer for Charging Electric Vehicles,” 2025. [3].B. Muneer et al., ”A Way Towards Energy Autonomous Wireless Sensing for EV Battery Management System,” 2025. [4].M. M. A. Muslam, ”Secure V2V Communication Using Wireless Technology,” 2024. [5].M. Alsudani, ”V2V and V2X Communication Using Wireless Networks,” 2023. [6].M. Lucas-Estan˜ et al., ”5G-Based Vehicle-to-Vehicle Communication,” 2022. [7].A. Kumar et al., ”Wireless V2V Communication for ITS,” 2021. [8].M. El Zorkany, ”Vehicle-to-Vehicle Communication: Challenges and Applications,” 2020. [9].J. Zhang and C. Li, ”Design of Vehicular Bidirectional Antenna Based on V2V Communication,” 2025. [10].R. B. Koti and M. S. Kakkasageri, ”Reliable Multihop Path Selection Scheme for V2I,” 2022. [11].A Way Towards Energy Autonomous Wireless Sensing for EV Battery Management System; Badar Muneer; Valentina Palazzi; Federico Alimenti; Paolo Mezzanotte; Luca Roselli 2025. [12].Dynamic Path Planning for QoS Improvement in Multiple Automated Guided Vehicles; Takumi Tanagi; Koichi Adachi2023. [13].A Comprehensive Review on Wireless Communication and Networking Advances; Prajakta Dandekar; Mayur Dandekar; Prasanna Phutane2024. [14].Dynamic and Static Wireless Charging of EVs Using Solar Energy; Manjunatha Badiger; Shikha Rai A; Chandra Singh; Mehnaz Fathima C; Varun Kumara; Sanketh C Naik2024. [15].Design of Wireless Power Transfer System for LowSpeed Vehicles Based on LCCS Topology; Tianfeng Wang; Fei Gao; Junzhong Xu; Xin Liu; Huang Li2024.

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