With the help of advanced A.I technology we made this shoes for blind people .
The robot that we use for this competition is Quarky. It uses a microcontroller of Esp32 series. A 3.7 V Li- ion battery is also used in our robot. We have used an ultrasonic sensor (HC-SR04) for obstacle detection. The servo motor, connected to the gripper part with blue plastic components, enables effective object manipulation. Additionally, Quarky is equipped with two IR sensors for line following when switched to automatic mode. Its design and components make it suitable for various tasks, offering a blend of functionality and efficiency.
We are using Quarky as our robot in this tournament. A microcontroller from the Esp32 family is used. Our robot also makes use of a 3.7 V Li-ion battery. An ultrasonic sensor (HC-SR04) has been employed to identify obstacles. Effective item manipulation is made possible by the servo motor, which is attached to the gripper portion using blue plastic components. Quarky also has two infrared sensors that, when in automated mode, allow it to follow lines. Because of its composition and design, it may be used for a variety of purposes and combines efficiency and functionality.
It’s a robot made on the quarky board.
The robot is made up of encoder motors, battery, Arduino uno board and jumper wires, it is made to reduce the stress of farmers and waste of tomatoes.