差动驱动轮移动机器人滑动模式速度控制器分析

Tri-Vien Vu, Anh-Minh Duc Tran
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引用次数: 0

摘要

在本研究中,我们介绍了一种系统设计的滑动模式速度控制器(SMSC),该控制器专为差动驱动轮移动机器人(DDWMR)中使用的电机量身定制。我们的分析深入探讨了 SMSC 的关键参数,包括收敛率和达到率,以及时间步长等仿真配置。我们同时考虑了上升时间、稳态误差和控制纹波系数等指标,以优化性能。通过对各种案例研究的综合评估,我们证明了微调 SMSC 在提高 DDWMR 整体性能方面的功效。我们的仿真结果凸显了参数微调的重要性,尤其强调了时间步长设置的作用。我们发现,较小的时间步长可减轻颤振现象并提高性能,但代价是增加了计算需求,并可能提高硬件要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Analysis of Sliding Mode Speed Controller for a Differential Drive Wheel Mobile Robot
In this study, we present a systematically designed Sliding Mode Speed Controller (SMSC) tailored for motors utilized in a Differential Drive Wheel Mobile Robot (DDWMR). Our analysis delves into the critical parameters of the SMSC, including convergence and reaching rates, alongside simulation configurations such as time step. We concurrently consider metrics like rising time, steady-state error, and control ripple factors to optimize performance. Through comprehensive evaluation across various case studies, we demonstrate the efficacy of the fine-tuned SMSC in enhancing the overall performance of the DDWMR. Our simulation results underscore the significance of meticulous parameter tuning, particularly emphasizing the role of time step settings. We find that a smaller time step mitigates chattering phenomena and improves performance, albeit at the cost of increased computational demands and potentially heightened hardware requirements.
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