Two-level RRT planning for robotic push manipulation

Claudio Zito, R. Stolkin, Marek Kopicki, J. Wyatt
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引用次数: 62

Abstract

This paper presents an algorithm for planning sequences of pushes, by which a robotic arm equipped with a single rigid finger can move a manipulated object (or manipulandum) towards a desired goal pose. Pushing is perhaps the most basic kind of manipulation, however it presents difficult challenges for planning, because of the complex relationship between manipulative pushing actions and resulting manipulandum motions. The motion planning literature has well developed paradigms for solving e.g. the piano-mover's problem, where the search occurs directly in the configuration space of the manipulandum object being moved. In contrast, in pushing manipulation, a plan must be built in the action space of the robot, which is only indirectly linked to the motion space of the manipulandum through a complex interaction for which inverse models may not be known. In this paper, we present a two stage approach to planning pushing operations. A global RRT path planner is used to explore the space of possible manipulandum configurations, while a local push planner makes use of predictive models of pushing interactions, to plan sequences of pushes to move the manipulandum from one RRT node to the next. The effectiveness of the algorithm is demonstrated in simulation experiments in which a robot must move a rigid body through complex 3D transformations by applying only a sequence of simple single finger pushes.
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机器人推操作的两级RRT规划
本文提出了一种规划推力序列的算法,通过该算法,机械臂可以通过单个刚性手指将被操纵物体(或操纵体)移动到期望的目标姿态。推也许是最基本的操作,但是它给计划带来了困难的挑战,因为推操作和操纵体运动之间的复杂关系。运动规划文献已经很好地发展了解决例如钢琴移动器问题的范例,其中搜索直接发生在被移动的操纵物体的位形空间中。相比之下,在推动操作中,必须在机器人的动作空间中建立一个计划,而这个计划只是通过复杂的相互作用与机械手的运动空间间接联系在一起,而这种相互作用的逆模型可能是未知的。在本文中,我们提出了一个两阶段的方法来规划推操作。全局RRT路径规划器用于探索可能的操纵杆配置空间,而局部推送规划器利用推送交互的预测模型来规划将操纵杆从一个RRT节点移动到下一个RRT节点的推送序列。仿真实验证明了该算法的有效性,在该实验中,机器人必须通过一系列简单的单指推动来移动刚体进行复杂的三维变换。
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