基于PID控制器和双反馈的全驱动机器人速度控制

2016 IEEE First International Conference on Control, Measurement and Instrumentation (CMI) Pub Date : 1900-01-01 DOI:10.1109/CMI.2016.7413758

Akshay Birari, Amit Kharat, Purva Joshi, Rahul Pakhare, Unmesh Datar, Vaibhav Khotre

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引用次数: 8

摘要

研究了带速度控制的四轮全驱动机器人导航系统。该系统有两个反馈系统，即旋转编码器和激光距离传感器。下面的论文假设这些路径可以在数学上定义为直线、圆、椭圆或任何其他数学上定义的曲线，或者作为这些曲线的一部分。两个反馈系统使机器人能够准确可靠地导航特定路径。本文解释了驱动的每一个车轮的速度方程，以导航路径。激光距离传感器系统通过提供机器人的实时位置来帮助机器人保持其轨迹。由PID控制器和旋转编码器组成的闭环系统根据数学方程计算出每个车轮所需的精确速度。结果，机器人沿着特定的路径以期望的速度移动到目的地。

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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Velocity control of omni drive robot using PID controller and dual feedback

This paper concentrates on navigation of four wheel omni drive robot system with velocity control. The system has two feedback systems, viz. rotary encoders and laser distance sensors. The following paper assumes that these paths can be defined mathematically in terms of curves like straight line, circle, ellipse or any other mathematically defined curve or as a part of these curves. Two feedback systems enable the robot to navigate the specific path accurately and reliably. This paper explains the velocity equations of the each wheel of the drive required to navigate the path. The laser distance sensor system assists the robot to maintain its trajectory by providing real time position of the robot. The closed loop system of PID controller and rotary encoder provides the required accurate velocity to each wheel which is calculated according to the mathematical equations. As a result the robot moves to the destination point along the specific path with desired velocity.

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来源期刊

2016 IEEE First International Conference on Control, Measurement and Instrumentation (CMI)

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