Publication

Abstract : This project introduces an IoT-powered smart parking and e-bike sharing system, offering an efficient and sustainable micro-mobility solution for urban spaces. The system integrates locking mechanisms, cloud-based data management, and a responsive web application for monitoring and booking e-bikes. The on-vehicle device consists of a NodeMCU-based battery emulator that simulates a 51 V, 19.3Ah Li-ion battery and transmits the state-of-charge (SOC) and temperature data to the parking station. The parking station device is powered by a Raspberry Pi, which manages real-time communication between the e-bike, MySQL database, and web application. The system employs Wi-Fi and LTE connectivity for data transmission, ensuring efficient fleet management and seamless user authentication. Results demonstrate enhanced efficiency and reliability in operations, while providing seamless user experiences. Future work includes integrating AI for predictive maintenance and optimizing routes, paving the way for more intelligent, more connected urban transport systems.