Movement control of two wheels balancing robot using cascaded PID controller

2015 International Electronics Symposium (IES) Pub Date : 2015-09-01 DOI:10.1109/ELECSYM.2015.7380821

D. Pratama, E. Binugroho, Fernando Ardilla

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引用次数: 29

Abstract

Balancing robot which is proposed in this paper is a robot that relies on two wheels in the process of movement. Unlike the other mobile robot which is mechanically stable in its standing position, balancing robot need a balancing control which requires an angle value to be used as tilt feedback. The balancing control will control the robot, so it can maintain its standing position. Beside the balancing control itself, the movement of balancing robot needs its own control in order to control the movement while keeping the robot balanced. Both controllers will be combined since will both of them control the same wheel as the actuator. In this paper we proposed a cascaded PID control algorithm to combine the balancing and movement or distance controller. The movement of the robot is controlled using a distance controller that use rotary encoder sensor to measure its traveled distance. The experiment shows that the robot is able to climb up on 30 degree sloping board. By cascading the distance control to the balancing control, the robot is able to move forward, turning, and reach the desired position by calculating the body's tilt angle.

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基于级联PID控制器的两轮平衡机器人运动控制

本文提出的平衡机器人是一种依靠两个轮子进行运动的机器人。与其他移动机器人在其站立位置机械稳定不同，平衡机器人需要一个平衡控制，需要一个角度值作为倾斜反馈。平衡控制将控制机器人，使其保持其站立位置。除了平衡控制本身之外，平衡机器人的运动还需要自身的控制，以便在保持机器人平衡的同时控制运动。两个控制器将被合并，因为它们都将控制同一个车轮作为执行器。本文提出了一种级联PID控制算法，将平衡控制器与运动控制器或距离控制器相结合。机器人的运动由一个距离控制器控制，该控制器使用旋转编码器传感器测量其行进距离。实验表明，该机器人能够在30度斜坡上爬上斜坡。通过将距离控制级联到平衡控制，机器人能够向前移动，转弯，并通过计算身体的倾斜角度到达期望的位置。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Electronics Symposium (IES)

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