一种用于机械臂高效控制的动态神经网络方法

A Dynamic Neural Network Approach for Efficient Control of Manipulators

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2017
被引 85
ABS 3

中文导读

提出一种无需机械臂参数模型的双动态神经网络,能同时学习与控制,通过注入噪声增强学习信号,实现冗余度解析的高效控制。

Abstract

Redundancy resolution is a critical problem in the control of manipulators. The dual neural network, as a special type of recurrent neural networks that are inherently parallel processing models, is widely investigated in past decades to control manipulators. However, to the best of our knowledge, existing dual neural networks require a full knowledge about manipulator parameters for efficient control. We make progress along this direction in this paper by proposing a novel model-free dual neural network, which is able to address the learning and control of manipulators simultaneously in a unified framework. Different from pure learning problems, the interplay of the control part and the learning part allows us to inject an additive noise into the control channel to increase the richness of signals for the purpose of efficient learning. Due to a deliberate design, the learning error is guaranteed for convergence to zero despite the existence of additive noise for stimulation. Theoretical analysis reveals the global stability of the proposed neural network control system. Simulation results verify the effectiveness of the proposed control scheme for redundancy resolution of a PUMA 560 manipulator.

机械臂控制冗余度解析神经网络无模型控制