A new PD based robust control method for the robot joint module

ShengChao Zhen; Xin Peng; XiaoLi Liu; HongMei Li; Ye-Hwa Chen

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A new PD based robust control method for the robot joint module

机译：一种基于PD的机器人联合模块的鲁棒控制方法

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摘要

In order to reduce the impact of load and system parameter changes on the dynamic performance of the robot joint module, we propose a PD based robust control method, which also inherits the traditional model-based control, with convenient realization and actual effectiveness. The controller is composed of two parts: one is a nominal controller designed based on the dynamic model to stabilize the nominal mechanical system, the other part is a robust controller based on the Lyapunov method to eliminate the impact of uncertainty on tracking performance. Based on the actual joint module platform and the rapid controller prototype CSPACE, we simulated and carried out experimental verification with two friction models. Theoretical analysis and experimental results show that the controller can significantly improve the dynamic performance of the robot joint module system.

机译：为了减少负载和系统参数的影响对机器人联合模块的动态性能，我们提出了一种基于PD的鲁棒控制方法，其也继承了基于传统的基于模型的控制，方便实现和实际效率。控制器由两部分组成：一个是基于动态模型设计的标称控制器，以稳定标称机械系统，另一部分是基于Lyapunov方法的强大控制器，以消除不确定性对跟踪性能的影响。基于实际的联合模块平台和快速控制器原型CSPACE，我们模拟并进行了两个摩擦模型的实验验证。理论分析和实验结果表明，控制器可以显着提高机器人联合模块系统的动态性能。

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来源
《Mechanical systems and signal processing》 |2021年第12期|107958.1-107958.14|共14页
作者
ShengChao Zhen; Xin Peng; XiaoLi Liu; HongMei Li; Ye-Hwa Chen;
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作者单位

School of Mechanical Engineering Hefei University of Technology Hefei Anhui 230009 PR China AnHui Key Laboratory of Digital Design and Manufacturing Hefei University of Technology Hefei Anhui 230009 PR China;

School of Mechanical Engineering Hefei University of Technology Hefei Anhui 230009 PR China AnHui Key Laboratory of Digital Design and Manufacturing Hefei University of Technology Hefei Anhui 230009 PR China;

School of Mechanical Engineering Hefei University of Technology Hefei Anhui 230009 PR China AnHui Key Laboratory of Digital Design and Manufacturing Hefei University of Technology Hefei Anhui 230009 PR China;

School of Electrical and Automation Hefei University of Technology Hefei Anhui 230009 PR China;

The Ceroge W.Woodrufi School of Mechanical Engineering Georgia Institute of Technology Atlanta GA 30332 USA Key Laboratory of Road Construction Technology and Equipment of MOE Chang'an University Xi'an 710064 PR China;

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正文语种 eng
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关键词
Robust control; Uncertainty; Dynamic performance; Joint module; Lyapunov method;

机译：强大的控制;不确定;动态性能;联合模块;Lyapunov方法;

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专利

1. Robust Adaptive Tracking Control Based on State Feedback Controller With Integrator Terms for Elastic Joint Robots With Uncertain Parameters [J] . Luc Le-Tien, Alin Albu-Schäffer Control Systems Technology, IEEE Transactions on . 2018,第6期

机译：参数不确定的弹性关节机器人基于积分器状态反馈控制器的鲁棒自适应跟踪控制
2. Robust Lyapunov-Based Control of Flexible-Joint Robots Using Voltage Control Strategy [J] . A. Izadbakhsh, M. M. Fateh Arabian Journal for Science and Engineering . 2014,第4期

机译：基于电压控制策略的基于Lyapunov的鲁棒柔性关节机器人控制
3. Robust Output Feedback Tracking Control for Flexible-Joint Robots Based on CTSMC Technique [J] . Wang Huiming, Peng Weiwei, Tan Xin, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2021,第6期

机译：基于CTSMC技术的柔性联合机器人鲁棒输出反馈跟踪控制
4. Robust controls for flexible joint robots: a single link case study with unknown joint stiffness parameter [C] . Aoustin, Y. . 1993

机译：柔性关节机器人的鲁棒控制：未知关节刚度参数的单链接案例研究
5. Adaptive and robust control of flexible joint robots with joint torque feedback. [D] . Lin, Tian. 1998

机译：具有关节扭矩反馈的柔性关节机器人的自适应鲁棒控制。
6. Trajectory Tracking Control for Flexible-Joint Robot Based on Extended Kalman Filter and PD Control [O] . Tianyu Ma, Zhibin Song, Zhongxia Xiang, 2019

机译：基于扩展卡尔曼滤波和局部放电控制的柔性关节机器人轨迹跟踪控制
7. Development of a Bio-inspired Vision System for Mobile Micro-robots:In this paper, we present a new bio-inspired vision system for mobile micro-robots. The processing method takes inspiration from vision of locusts in detecting the fast approaching objects. Research suggested that locusts use wide-field visual neuron called the lobula giant movement detector to respond to imminent collisions. We employed the locusts' vision mechanism to motion control of a mobile robot. The selected image processing method is implemented on a developed extension module using a low-cost and fast ARM processor. The vision module is placed on top of a micro-robot to control its trajectory and to avoid obstacles. The observed results from several performed experiments demonstrated that the developed extension module and the inspired vision system are feasible to employ as a vision module for obstacle avoidance and motion control. [O] . Hu, Cheng, Arvin, Farshad, Yue, Shigang 2014

机译：开发用于移动微型机器人的生物启发视觉系统：在本文中，我们提出了一种用于移动微型机器人的新型生物启发视觉系统。该处理方法从检测快速接近物体的蝗虫视觉中获取灵感。研究表明，蝗虫使用称为小叶巨型运动探测器的宽视野神经元来应对即将发生的碰撞。我们采用蝗虫的视觉机制来控制移动机器人。所选择的图像处理方法使用低成本且快速的aRm处理器在开发的扩展模块上实现。视觉模块放置在微型机器人的顶部以控制其轨迹并避开障碍物。几次进行的实验观察到的结果表明，开发的扩展模块和灵感视觉系统可用作避障和运动控制的视觉模块。
8. A passivity based control methodology for flexible joint robots with application to a simplified shuttle RMS arm [R] . Sicard, Pierre, Wen, John T. 1991

机译：基于无源性的柔性关节机器人控制方法，适用于简化的梭式Rms臂

A new PD based robust control method for the robot joint module

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