The Water Transportation and Detection project aims to develop a mechatronic IoT system for hydraulic ram pump control. This system utilizes ultrasonic fluid level sensors to collect leakage and pressure data, which is analyzed using artificial intelligence. Machine learning algorithms enable functional decision-making based on the data inputs, and remote control is achieved through wireless data transmission. This project aims to improve water distribution efficiency and monitor water quality..
The Sustainable Agriculture project introduces the Solar-Powered Agricultural Tower, a groundbreaking innovation that harnesses sunlight to supercharge crop growth. The tower utilizes lenses and mirrors to capture sunlight from different angles and distribute it evenly to crops. This project aims to increase crop yield, reduce electricity dependency, and promote eco-friendliness through solar energy use. It empowers farmers to produce more with less effort and contributes to food security and environmental sustainability.