An algorithm for transferring parallel-jaw grasps between 3D mesh subsegments

Matthew Matl, Jeffrey Mahler, Ken Goldberg
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引用次数: 3

Abstract

In this paper, we present an algorithm that improves the rate of successful grasp transfer between 3D mesh models by breaking each mesh into functional subsegments and transferring grasps between similar subsegments rather than between full models. This algorithm combines prior research on grasp transfer with mesh segmentation techniques from computer graphics to successfully transfer contact points more often while potentially preserving task-specific knowledge across transfers. The algorithm extracts subsegments from each mesh model with a customized segmentation algorithm designed for speed and then groups similar subsegments with D2 shape descriptors and Gaussian mixture models (GMMs). Grasps are then transferred by aligning similar subsegments with Super4PCS, a global point cloud registration algorithm. We experimentally evaluated this algorithm against a non-segmenting baseline on over 20,000 grasp transfers across a set of 80 objects and found that the segmentation-based algorithm improved the success rate for finding a transferred grasp from 82% to 98%. Additionally, grasps transferred with our algorithm were only 8.7% less robust on average than the original grasps without any local re-planning.
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一种在三维网格子段之间传递平行颚抓取的算法
在本文中,我们提出了一种算法,该算法通过将每个网格分解为功能子段,并在相似子段之间而不是在完整模型之间传递抓取,提高了3D网格模型之间抓取转移的成功率。该算法将先前的抓握转移研究与计算机图形学的网格分割技术相结合,成功地更频繁地转移接触点,同时潜在地保留跨转移的特定任务知识。该算法采用基于速度的自定义分割算法从每个网格模型中提取子段,然后使用D2形状描述符和高斯混合模型(GMMs)对相似子段进行分组。然后通过与Super4PCS(一种全局点云配准算法)对齐相似的子段来转移抓取。我们在80个对象上超过20,000次抓取转移的非分割基线上对该算法进行了实验评估,发现基于分割的算法将发现转移抓取的成功率从82%提高到98%。此外,在没有任何局部重新规划的情况下,用我们的算法转移的抓取平均只比原始抓取低8.7%。
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