Projects

Considering the demand for water supply and the waste that associates with the pumping of water in the household this project ensures and reliable and efficient water supply. The development of an automated water pumping system that effectively minimizes water loss is a noteworthy accomplishment. The system incorporates a mechanism for accurately determining the water level in the container, utilizing a sonar sensor to detect any overflow. Based on the water level in the reservoir, the system automatically activates the pump, ensuring efficient operation. Additionally, the user is provided with a convenient interface to monitor the water level in the reservoir as well as the status of the water pump. An alarm is placed which indicates if there is an overflow. This innovative system effectively reduces water wastage while providing reliable and user-friendly functionality.

A smart healthcare system based on Internet of Things (IoT) technology has been created to provide continuous, around-the-clock monitoring of critically ailing patients. The system allows for the real-time monitoring of vital signs such as heart rate, blood pressure, body temperature, and humidity. The collected patient data is securely maintained in a database, allowing physicians quick access to the patient's medical history when necessary. In the event of an emergency, the system also includes alarm capabilities to alert the physician immediately. In addition, the intelligent healthcare system includes automated room temperature control, which modifies the air conditioning or fan settings based on the patient's doctor-prescribed body temperature.

The RC Soccer Robot project aimed to design and build a robotic system that could play soccer autonomously or be remotely controlled. The robot was equipped with sensors for detecting the ball, goalposts, and obstacles, as well as motors and actuators for moving and manipulating the ball. The project’s main focus was to implement a current-controlled speed regulation approach for the robot's precise and efficient motion control. The project involved developing a custom control algorithm, integrating sensors and actuators, designing the mechanical structure of the robot, and implementing wireless remote control capabilities. The end goal was to create a capable and agile soccer-playing robot that could navigate the playing field, interact with the ball, and score goals, demonstrating advanced robotics and control techniques in a fun and engaging manner. The project provided valuable hands-on experience in robotics, control systems, and mechatronics and offered opportunities for innovation and creativity in designing a cutting-edge soccer-playing robot.