Line Tracer Robot Navigation System Using Arduino Uno Microntroller With PID Control

Academia Open Pub Date : 2023-08-14 DOI:10.21070/acopen.8.2023.7275

Agus Hayatal F, Syamsudduha Syahrorini, A. Ahfas, Zidan Nur F, Ali Zaenal A

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Abstract

This Study aims to develop a line tracer using Arduino Uno the PID control method. Line tracer robot is a type of robot is a type of robot capable of following a specified path. The PID (Proportional-Integral-Derivative) control used to keep the robot on track by correcting the difference between the actual and the desired position. In this study, 6 photo diode sensors were used, the motor driver used the L293D, and the microcontroller used Arduino Uno. Testing the response of the photo diode sensor had the smallest voltage value at 1,219 Vdc and the largest voltage at 4,875 the result of the motor driver measurements all succeeded in stopping, ccw or cw. The end of testing the line tracer robot using PID control is able to navigate properly without getting of the track. Highlights: Precise Path Following: PID control ensures accurate tracking by correcting position deviations. Sensor Response Evaluation: Photo diode sensor testing reveals voltage range (1.219 Vdc to 4.875 V) for effective line detection. Motor Driver Proficiency: L293D motor driver successfully controls motor functions (stop, ccw, cw) for optimal movement. Keywords : Robot, Line Tracer, PID, Arduino Uno

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使用 Arduino Uno 微控制器和 PID 控制的线路跟踪机器人导航系统

本研究旨在使用 Arduino Uno 和 PID 控制方法开发一个线路跟踪机器人。线路跟踪机器人是一种能够沿着指定路径行进的机器人。PID（比例-积分-微分）控制用于纠正实际位置与期望位置之间的差异，从而使机器人保持在轨道上。本研究使用了 6 个光电二极管传感器，电机驱动器使用了 L293D，微控制器使用了 Arduino Uno。测试光敏二极管传感器的响应时，最小电压值为 1 219 Vdc，最大电压值为 4 875 Vdc。测试结束后，使用 PID 控制的线路跟踪机器人能够正常导航，不会偏离轨道。亮点：精确的路径跟踪：PID 控制可纠正位置偏差，确保精确跟踪。传感器响应评估：光电二极管传感器测试显示电压范围（1.219 Vdc 至 4.875 V），可有效检测线路。电机驱动器能力：L293D 电机驱动器成功控制了电机功能（停止、回转、回转），实现了最佳运动。关键词：机器人、线路跟踪器、PID、Arduino Uno

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Academia Open

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