学习机器人操作手的摩擦补偿

Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics Pub Date : 1993-11-15 DOI:10.1109/IECON.1993.339433

S. P. Chan

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引用次数: 4

摘要

用数学模型来表示摩擦的非线性特性是困难的。提出了一种利用神经网络学习机械臂摩擦力矩不确定性的替代方法。在此基础上，推导出了学习不确定性的真实教学信号。经过学习，神经网络能够再现训练数据。然后将其嵌入到关节力矩摄动观测器的结构中，以补偿摩擦中的不确定性。最后，给出了SCARA机器人插入电子元件时关节反力的准确估计。与使用结构化摩擦模型的传统方法相比，这种方法具有明显的优势。

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Learning friction compensation in robot manipulators

It is difficult to represent the nonlinear characteristics of friction in terms of a mathematical model. An alternative approach of using a neural network to learn the uncertainties in the friction torque of robot manipulators is proposed. Furthermore a true teaching signal for learning the uncertainties is derived. After learning, the neural network is capable of reproducing the training data. It is then embedded in the structure of a joint torque perturbation observer to compensate for the uncertainties in friction. As a result, an accurate estimate of the joint reaction torque during electronic component insertion by a SCARA robot can be deduced. This approach offers distinct advantages over the conventional method of using a structured friction model.<>

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Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics

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