Path planning for planar articulated robots using configuration spaces and compliant motion

IEEE Trans. Robotics Autom. Pub Date : 2003-06-25 DOI:10.1109/TRA.2003.810237
E. Sacks
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引用次数: 23

Abstract

This paper presents a path-planning algorithm for an articulated planar robot with a static obstacle. The algorithm selects a robot part, finds a path to its goal configuration by systematic configuration space search, drags the entire robot along the path using compliant motion, and repeats the cycle until every robot part reaches its goal. The planner is tested on 11 000 random problems, which span dozens of robot/obstacle geometries with up to 43 moving parts and with narrow channels. It solves every problem in seconds, whereas randomized algorithms appear to fail on all of them.
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基于位形空间和柔性运动的平面关节机器人路径规划
提出了一种具有静态障碍物的平面关节机器人的路径规划算法。该算法选择机器人部件,通过系统的位形空间搜索找到到达目标位形的路径,利用柔顺运动拖动整个机器人沿路径移动,并重复此循环,直到机器人的每个部件都达到目标。该计划在11000个随机问题上进行了测试,这些问题涉及数十个机器人/障碍物几何形状,最多有43个运动部件和狭窄的通道。它在几秒钟内解决了所有问题,而随机算法似乎在所有问题上都失败了。
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IEEE Trans. Robotics Autom.
IEEE Trans. Robotics Autom.
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