Electricity is vital to modern life, yet regions like Kurdistan face energy challenges due to insufficient infrastructure and reliance on fossil fuels, which harm the environment through CO2 emissions. This project offers sustainable solution: generating electricity from human motion, such as walking, using piezoelectric sensors embedded in flooring to convert mechanical energy into electrical energy. The system includes two piezoelectric ceramic discs from the PZT-5A series(35mm and 27 mm in diameter), a Battery Management System (BMS),Arduino and ESP32 microcontrollers, and RFID technology for secure access. A smart monitoring system provides real-time data on energy generation and battery status. The agile methodology use in developing the system and testing for efficiency, reliability, and scalability. Results showed the 27mmdisc produced 0.18V with a minimal force of 0.97 N. In comparison, the 35mmdisc required double force reached to 1.47N to generate 0.19V.This project demonstrates a practical, clean energy solution that supplements Kurdistan’s electricity supply while raising awareness of renewable energy, highlighting its potential to address energy deficits with minimal environmental impact. Future recommendations include improving material efficiency, scaling the system for broader applications, and integrating it with hybrid renewable systems for continuous operation.
