Remote Controlled Mini Forklift
This project kit allows students to build and operate a fully functional mini forklift that can be controlled remotely. Designed to mimic the basic working of industrial forklifts, it helps learners understand real-world applications of mechanical systems, motor control, and wireless communication. The kit includes all essential components such as DC motors, motor drivers, a chassis, wheels, and a remote control system. Ideal for showcasing automation and material handling concepts, this project offers hands-on experience in robotics and electronics integration.
Line Following Robot
This project kit enables students to build a robot that automatically follows a path marked by a black or white line on the ground. Using infrared sensors to detect the line and control logic to adjust the robot’s direction, this project introduces the fundamentals of sensor-based automation and control systems. The kit comes with all required components including motors, sensors, chassis, and a microcontroller. It’s an excellent introduction to robotics, perfect for learning about real-time decision-making and autonomous navigation.
Obstacle Avoiding Robot
This kit lets students build a robot that can detect and avoid obstacles in its path using ultrasonic sensors. The robot continuously scans its surroundings and changes direction automatically to prevent collisions. This project is ideal for learning how sensors, microcontrollers, and motor control work together to create autonomous systems. All essential components including sensors, wheels, motors, and a programmable controller are included. It’s a great hands-on way to explore the basics of robotics and real-time decision-making.
Voice controlled robot
Equipped with vibration and tilt sensors, this system detects sudden impacts and identifies accidents. It then sends an instant alert with location coordinates via SMS or web dashboard to rescue services. It's a lifesaving IoT application suitable for automotive, safety, and embedded system students.
Gesture Controlled Robot Using Hand Movements
This project kit allows students to build a robot that responds to hand gestures for movement control. Using an accelerometer sensor mounted on a glove or handheld controller, the robot detects hand tilts and translates them into directional commands. This hands-on project is perfect for understanding wireless communication, sensor interfacing, and gesture-based control. The kit includes all necessary components like sensors, microcontroller, wireless modules, and motors. It’s an exciting way to explore modern human-machine interaction and robotics.
