基于矢量的工业机器人闭环控制方法

A. Buschhaus, Andreas Blank, J. Franke
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引用次数: 4

摘要

提高工业机器人的绝对精度是研究机构和机器人制造商的多项活动。在这种情况下,具有挑战性的是机器人在运动过程中的精度提高。这是由于需要提供时间高效和准确的目标和实际状态确定模块,充分的数据同步和适当的校正值计算。这些信息可以用来建立机器人的在线闭环控制。该系统的难点之一是在连续误差补偿的情况下保证运动平稳。为了克服这一问题,最近的研究活动提出了一种基于病媒的控制方法。从而,将路径规划传递给执行所有计算步骤的外部控制单元。在此基础上,计算出与机器人插补周期时间同步的运动向量,连续发送给机器人控制器并执行。这些矢量包括描述实际状态和目标状态之间偏差的分量,因此允许对不准确性进行补偿。因此,机器人被以小的增量沿着其最优轨迹“推动”。实验已经显示出良好的结果,允许反应性控制和平滑的运动执行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vector based closed-loop control methodology for industrial robots
Improving the absolute accuracy of industrial robots is addressed by multiple activities of research institutes and robot manufacturers. Challenging in this context is an accuracy improvement of the robot during the movement. This is due to the necessity of providing time efficient and accurate target and actual state determination modules, an adequate data synchronization and a proper correction value calculation. This information can then be used to establish an online closed-loop control of the robot. One difficulty in such a system is to guarantee a smooth and steady movement despite the continuous inaccuracy compensation. To overcome this problem, recent research activities address a vector based control method. Thereby, the path planning is transferred to an external control unit, which performs all calculation steps. Based on this calculation, movement vectors synchronized with the interpolation cycle time of the robot are computed, continuously sent to the robot controller and brought to execution. These vectors include components, which describe the deviation between actual and target state and hence allow a compensation of the inaccuracies. Thereby, the robot is “pushed” along its optimal trajectory by small increments. Experiments already show good results, allowing a reactive control together with a smooth movement execution.
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