人机交互中的控制与避障方法

2015 IEEE International Workshop on Advanced Robotics and its Social Impacts (ARSO) Pub Date : 2015-06-01 DOI:10.1109/ARSO.2015.7428222

A. C. Leite, Thiago B. Almeida-Antonio, P. From, F. Lizarralde, L. Hsu

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引用次数: 7

摘要

在这项工作中，我们提出了一种在人类存在的部分结构化环境中操作的冗余机器人操纵器的控制和避障方法。该控制算法基于人工势场的概念，利用雅可比矩阵的伪逆和机械关节极限的加权因子，利用机器人的冗余性达到避障和控制目标的目的。该检测算法使用基于结构光的深度传感器，从点云中获得周围环境的2-1/2-D描述。在检测到的障碍物周围产生排斥场，允许机器人在不发生碰撞的情况下执行感兴趣的任务。提出了一种基于几何元素的滤波方法，对深度传感器捕获的RGB-D场景进行滤波，消除机器人本体及其工作空间外的障碍物。在Motoman DIA10机器人和Microsoft KinectTM上的实验结果表明了该方案的可行性。

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Control and obstacle collision avoidance method applied to human-robot interaction

In this work, we present a control and obstacle collision avoidance method for redundant robot manipulators operating in partially structured environments in the presence of humans. The control algorithm is based on the concept of artificial potential fields and it uses the pseudo-inverse of the Jacobian matrix with a weighting factor for the mechanical joint limits, taking advantage of the robot redundancy for the purpose of obstacle avoidance and control goal achievement. The detection algorithm uses a depth sensor based on the structured light to obtain a 2-1/2-D description of the surroundings from a point cloud. Repulsive fields are created around the detected obstacles, allowing for the robot to perform the task of interest without collisions. A filtering methodology based on geometric elements is presented to filter the RGB-D scene captured by the depth sensor, eliminating the robot body and the obstacles located outside its workspace. Experimental results, obtained with a Motoman DIA10 robot and a Microsoft KinectTM, illustrate the feasibility of the proposed scheme.

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2015 IEEE International Workshop on Advanced Robotics and its Social Impacts (ARSO)

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