Deep Workpiece Region Segmentation for Bin Picking

Muhammad Usman Khalid, Janik M. Hager, W. Kraus, Marco F. Huber, Marc Toussaint
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引用次数: 11

Abstract

For most industrial bin picking solutions, the pose of a workpiece is localized by matching a CAD model to point cloud obtained from 3D sensor. Distinguishing flat workpieces from bottom of the bin in point cloud imposes challenges in the localization of workpieces that lead to wrong or phantom detections. In this paper, we propose a framework that solves this problem by automatically segmenting workpiece regions from non-workpiece regions in a point cloud data. It is done in real time by applying a fully convolutional neural network trained on both simulated and real data. The real data has been labelled by our novel technique which automatically generates ground truth labels for real point clouds. Along with real time workpiece segmentation, our framework also helps in improving the number of detected workpieces and estimating the correct object poses. Moreover, it decreases the computation time by approximately 1s due to a reduction of the search space for the object pose estimation.
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基于料仓拣选的深工件区域分割
对于大多数工业拣仓解决方案,工件的位姿是通过将CAD模型与三维传感器获得的点云进行匹配来定位的。在点云中区分平面工件和底部工件给工件定位带来了挑战,从而导致错误或虚幻的检测。在本文中,我们提出了一个框架,通过在点云数据中自动分割工件区域和非工件区域来解决这一问题。它是通过应用在模拟和真实数据上训练的全卷积神经网络实时完成的。我们的新技术可以自动生成真实点云的地面真值标签,并对真实数据进行标记。随着实时工件分割,我们的框架也有助于提高检测工件的数量和估计正确的目标姿态。此外,由于减少了目标姿态估计的搜索空间,使计算时间减少了约15秒。
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