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引用次数: 12
摘要
本文评估并改进了内窥镜手术机器人AESOP (ComputerMotion Inc., Goleta, CA, USA)自主执行任务的能力。首先,利用光学跟踪系统测量机器人的笛卡尔位置精度。由于得到的结果不令人满意,然后使用跟踪系统对机器人的位置进行校正。提出了两种方法:第一种方法是确定跟踪与机器人参考系之间的关系,并在任务执行过程中保持恒定;第二种方法是通过卡尔曼滤波在系统的每个采样时间更新该关系中涉及的一些参数。该算法已在实际跟踪机器人系统中实现,数值结果表明,所提出的解决方案明显提高了原系统的自主性能。
Improving Cartesian position Accuraca of a telesurgical robot
This paper evaluates and improves the capability of the endoscopic surgical robot AESOP (ComputerMotion Inc., Goleta, CA, USA) to carry out tasks autonomously. First, the Cartesian position accuracy of the robot is measured using an optical tracking system. Since the obtained results are not satisfactory, the tracking system is then used to correct the position of the robot. Two approaches are presented: in the first one, the relation between the tracking and the robot reference frames is determined and is kept constant during the execution of a task, while in the second one, some parameters involved in this relation are updated at each sampled time of the system by means of a Kalman filter. The algorithms have been implemented in the real tracking-robot system and numerical results are reported in this paper, showing that the proposed solutions clearly improve the autonomous performance of the original system.
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