An optimal design for robot dynamic control

Proceedings of the IEEE 1999 International Conference on Power Electronics and Drive Systems. PEDS'99 (Cat. No.99TH8475) Pub Date : 1999-07-27 DOI:10.1109/PEDS.1999.794593

A. Khoukhi

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Abstract

In this paper we consider the problem of the optimal design in robotics systems. First we discuss the problems relating to the optimization of the mechanical structure in dimensions and performance. Then the control system and the controller optimal time-energy trajectory planning based on the complete model of the robot taking into account intrinsic and extrinsic constraints, the robot singularities and the task and environment requirements, is discussed. Then an adaptive feedback tracker is developed. This controller is of mixed type and consists of: on the one hand the predictive control which uses a precise model of the manipulator identified in real time, and gives the torque to apply on the articulations in order to assure the desirable movement, and on the other hand, it uses a nonlinear corrector composed of a proportional plus derivative control with adaptive gain chosen such that the error on the displacement and on the speed tends to zero. An adaptive estimation algorithm is also considered to identify on-line the structural variable parameters of the robot. Some numerical results are given, the real time implementation is also discussed.

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机器人动态控制的优化设计

本文研究机器人系统的最优设计问题。首先讨论了机械结构在尺寸和性能方面的优化问题。然后讨论了基于机器人完整模型的控制系统和控制器的时间-能量最优轨迹规划，同时考虑了机器人的内外约束、奇异性以及任务和环境要求。然后，开发了自适应反馈跟踪器。该控制器是一种混合型控制器，它包括:一方面是预测控制，它利用实时识别的机械臂的精确模型，并给出施加在关节上的扭矩以保证理想的运动;另一方面，它使用由比例加导数控制组成的非线性校正器，选择自适应增益，使位移和速度的误差趋于零。提出了一种自适应估计算法，用于在线辨识机器人的结构变量参数。给出了一些数值结果，并对实时实现进行了讨论。

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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来源期刊

Proceedings of the IEEE 1999 International Conference on Power Electronics and Drive Systems. PEDS'99 (Cat. No.99TH8475)

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