Graspness Discovery in Clutters for Fast and Accurate Grasp Detection

2021 IEEE/CVF International Conference on Computer Vision (ICCV) Pub Date : 2021-10-01 DOI:10.1109/ICCV48922.2021.01566

Chenxi Wang, Haoshu Fang, Minghao Gou, Hongjie Fang, Jin Gao, Cewu Lu, S. Tong

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引用次数: 34

Abstract

Efficient and robust grasp pose detection is vital for robotic manipulation. For general 6 DoF grasping, conventional methods treat all points in a scene equally and usually adopt uniform sampling to select grasp candidates. However, we discover that ignoring where to grasp greatly harms the speed and accuracy of current grasp pose detection methods. In this paper, we propose "graspness", a quality based on geometry cues that distinguishes graspable area in cluttered scenes. A look-ahead searching method is proposed for measuring the graspness and statistical results justify the rationality of our method. To quickly detect graspness in practice, we develop a neural network named graspness model to approximate the searching process. Extensive experiments verify the stability, generality and effectiveness of our graspness model, allowing it to be used as a plug-and-play module for different methods. A large improvement in accuracy is witnessed for various previous methods after equipping our graspness model. Moreover, we develop GSNet, an end-to-end network that incorporate our graspness model for early filtering of low quality predictions. Experiments on a large scale benchmark, GraspNet-1Billion, show that our method outperforms previous arts by a large margin (30 + AP) and achieves a high inference speed.

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杂波中的抓握发现，实现快速准确的抓握检测

高效、鲁棒的抓取姿态检测是机器人操作的关键。对于一般的6自由度抓取，传统方法对场景中的所有点一视同仁，通常采用均匀采样的方法来选择抓取候选点。然而，我们发现忽略抓取位置严重影响了当前抓取姿态检测方法的速度和准确性。在本文中，我们提出了“抓握性”，这是一种基于几何线索的质量，可以区分混乱场景中的可抓握区域。提出了一种检测抓取程度的前向搜索方法，统计结果证明了该方法的合理性。为了在实践中快速检测抓取性，我们开发了一个名为抓取性模型的神经网络来近似搜索过程。大量的实验验证了我们的抓取模型的稳定性，通用性和有效性，允许它作为一个即插即用模块用于不同的方法。在装备了我们的抓取模型后，我们发现以前的各种方法的准确率都有很大的提高。此外，我们开发了GSNet，这是一个端到端网络，结合了我们的抓取模型，用于低质量预测的早期过滤。在大规模基准测试graspnet - 10亿上的实验表明，我们的方法比以前的方法有很大的优势(30 + AP)，并且达到了很高的推理速度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2021 IEEE/CVF International Conference on Computer Vision (ICCV)

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