Solar Panel Cleaning Robot
This robot provides an automated solution for maintaining solar panels by cleaning them regularly using motor-driven rotating brushes. It moves over the panel surface in a controlled manner, ensuring efficient dust removal and optimal energy output. The project demonstrates mechanical design, DC motor integration, and sustainable energy principles. It’s a perfect fit for students interested in renewable energy, green tech, and practical automation systems.
Goods Transport Stair Climber Robot
This innovative robot uses a tri-wheel mechanism to climb stairs while transporting loads. It is engineered for environments where vertical mobility is a challenge, such as hospitals or warehouses. The design includes a sturdy chassis, high-torque motors, and an Arduino controller for movement coordination. This project emphasizes mechanical innovation, control logic, and structural stability, making it ideal for final-year demonstrations and real-world problem-solving.
Programmable Robotic Arm Using Arduino
This project features a multi-jointed robotic arm capable of performing programmable pick-and-place tasks using servo motors and an Arduino controller. Designed to simulate industrial automation systems, it helps students understand basic kinematics, motor control, and embedded systems. With a simple user interface and customizable code, the arm can be programmed for repetitive tasks, making it ideal for showcasing precision and functionality in robotics.
Voice Controlled Robotic Vehicle
This smart robotic vehicle responds to voice commands given through a mobile application using Bluetooth technology. It offers a practical introduction to wireless communication, Arduino programming, and actuator control. The robot can move in different directions based on spoken inputs, demonstrating real-world applications like voice-controlled wheelchairs, smart assistants, and surveillance bots. It’s an engaging and technically sound project that blends IoT and robotics.
Automatic Waste Segregation System
An intelligent waste management solution that automatically detects and sorts waste into dry, wet, and metallic categories using IR, moisture, and metal sensors. Controlled by an Arduino, the system uses servos and conveyors to direct waste into the appropriate bin. It promotes sustainability and smart city innovation, while helping students learn sensor integration, real-time decision-making, and embedded programming in a practical, socially impactful way.
