Kinematic control of a seven DOF robot manipulator with joint limits and obstacle avoidance using neural networks

The 2nd International Conference on Control, Instrumentation and Automation Pub Date : 2011-12-01 DOI:10.1109/ICCIAUTOM.2011.6356794

H. Toshani, M. Farrokhi

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引用次数: 7

Abstract

In this paper, a numerical method based on neural network is presented to solve inverse kinematics problem of redundant manipulators subject to joint angle limits and obstacles in the workspace of the robot. The proposed method is performed in real time, where radial-basis function neural network is used to obtain joint angles of the robot. In order to satisfy constrains, a method called Nonlinear Quadratic Programming (NQP) is applied to update NN's weights. Moreover, it will be shown that if the Kuhn-Tucker conditions are satisfied, then convergence of NN's weights is guaranteed. Since the process is performed on-line, the computational time of obtaining the inverse kinematics solution must be suitable for real-time applications such as control of the robot manipulators. Moreover, since the convergence rate of the problem depends on the initial weights of the neural network, several initial weights are used relative to suitable factors such as feasibility of the solution and vicinity of the desired point. Simulations are carried out on the PA-10 redundant manipulator to show effectiveness of the proposed algorithm.

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基于神经网络的关节限制和避障七自由度机器人的运动控制

本文提出了一种基于神经网络的数值方法，用于求解关节角度限制和机器人工作空间中障碍物影响下的冗余机械手逆运动学问题。该方法采用径向基函数神经网络实时获取机器人关节角度。为了满足约束条件，采用非线性二次规划(NQP)方法更新神经网络的权值。并且，如果满足Kuhn-Tucker条件，则保证了神经网络权值的收敛性。由于该过程是在线进行的，因此获得运动学逆解的计算时间必须适合于机器人操作手控制等实时应用。此外，由于问题的收敛速度取决于神经网络的初始权值，因此针对解的可行性和期望点的邻近度等合适的因素使用了几个初始权值。通过对PA-10冗余机械手的仿真，验证了该算法的有效性。

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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The 2nd International Conference on Control, Instrumentation and Automation

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