As renewable energy becomes more prevalent and the Internet of Things (IoT) industry assumes its rightful place in the global technology cycle, research interest in green energy and the possibility of embedded-technology-based wearable devices will increase. The current work focuses on kinetic energy harvesting using footwear mechanisms to generate renewable energy. Human motion is utilized as an innovative method for generating kinetic energy through piezoelectric sensors and recharging batteries for any purpose. The developed system will include a Node Microcontroller Control Unit ESP32 (NodeMCU ESP32), more exactly a development board as a microcontroller to make the energy harvesting manageable. The developed prototype includes a solar panel voltage source, making the microcontroller’s dynamic charging possible. Furthermore, through an IoT server, the embedded system outputs can be monitored remotely, allowing the user to check the battery percentage of the piezoelectric-charged battery and the number of successful steps taken. The connection between the embedded and a mobile device is established using Bluetooth connectivity. The experimental study entangles multiple essential purposes, including research, health support, environmental protection, and the use of green energy generation techniques.