基于图像与测量特征的混合视觉-测距伺服定位方法

Hybrid Visual-Ranging Servoing for Positioning Based on Image and Measurement Features

IEEE Transactions on Cybernetics · 2022
被引 20
ABS 3

中文导读

提出一种混合视觉-测距伺服方法,利用图像和测量特征直接控制六自由度机械臂,避免局部极小和奇异点问题,实现高精度定位。

Abstract

In this article, a hybrid visual-ranging servoing method is proposed to realize high-precision positioning tasks with a 6-degree of freedom (DOF) manipulator. This method utilizes the image and measurement features directly in the control loop. Without the need of complex image feature design and attitude estimation, this method realizes the 6-DOF control of a robot. A vital challenge in traditional vision-based systems is avoiding local minima and singularity problems. To tackle this issue, a full-rank interaction matrix hybrid visual servo (FRHVS) design criterion is proposed, which guarantees that the hybrid interaction matrix and its pseudoinverse matrix are both full rank. Moreover, the interaction matrix for these hybrid strategies, which combines image features with other sensors features, is derived in an analytical form. Experiments on a 6-DOF manipulator show that the proposed method is effective and has global asymptotic stability and high precision.

机器人控制视觉伺服计算机视觉控制理论