A Polynomial-time Algorithm to Design Push Plans for Sensorless Parts Sorting

Robotics science and systems : online proceedings Pub Date : 2005-06-08 DOI:10.15607/RSS.2005.I.013
M. D. Berg, X. Goaoc, A.F. van der Stappen
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引用次数: 5

Abstract

We consider the efficient computation of sequences of push actions that simultaneously orient two different polygons. Our motivation for studying this problem comes from the observation that appropriately oriented parts admit simple sensorless sorting. We study the sorting of two polygonal parts by first putting them in properly selected orientations. We give an O(n2 log n)-time algorithm to enumerate all pairs of orientations for the two parts that can be realized by a sequence of push actions and admit sensorless sorting. We then propose an O(n4 log2 n)-time algorithm for finding the shortest sequence of push actions establishing a given realizable pair of orientations for the two parts. These results generalize to the sorting of k polygonal parts.
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无传感器零件排序推送方案设计的多项式时间算法
我们考虑了同时定位两个不同多边形的推动作序列的高效计算。我们研究这个问题的动机来自于这样的观察,即适当定向的部件允许简单的无传感器排序。我们研究了两个多边形部分的排序,首先把它们放在适当选择的方向上。我们给出了一个O(n2 log n)时间的算法来枚举两个部件的所有方向对,这些方向对可以通过一系列的推动动作来实现,并且允许无传感器排序。然后,我们提出了一个O(n4 log2 n)时间算法,用于寻找最短的推动动作序列,为两个部分建立一个给定的可实现的方向对。这些结果推广到k个多边形部分的排序。
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来源期刊
Robotics science and systems : online proceedings
Robotics science and systems : online proceedings
CiteScore
12.00
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0.00%
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0
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