2D Object Localization Based Point Pair Feature for Pose Estimation

2018 IEEE International Conference on Robotics and Biomimetics (ROBIO) Pub Date : 2018-12-01 DOI:10.1109/ROBIO.2018.8665097

Diyi Liu, S. Arai, Zhuang Feng, Jiaqi Miao, Yajun Xu, J. Kinugawa, K. Kosuge

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引用次数: 16

Abstract

To automate the bin picking task with robots, pose estimation is the key challenge which identifies and locates objects, thus the robot can pick and manipulate the object in an accurate and reliable way. This paper proposes a novel solution which combines a machine learning based 2D object localization and a non-machine learning based 3D pose estimation method to estimate the pose of randomly piled up industrial parts. Given an image of a scene, the target part is localized in 2D first and its result is then used to crop the point cloud of the target part. Using the cropped point cloud and Boundary-to-Boundary-using-Directional-Tangent-Line (B2B-DTL) point pair feature, a novel descriptor, the proposed method could estimate the pose of industrial parts whose point clouds lack key details, for example, the point cloud of ridges of a part. Our algorithm is evaluated against real scenes and its experimental results show that the proposed method is sufficiently accurate and its online computation time is short, which makes it could be used in the real factory environment.

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基于点对特征的二维目标定位姿态估计

为了实现机器人的自动拾取任务，姿态估计是识别和定位物体的关键问题，从而使机器人能够准确、可靠地拾取和操作物体。本文提出了一种将基于机器学习的二维物体定位和基于非机器学习的三维姿态估计相结合的方法来估计随机堆积的工业零件的姿态。给定一个场景的图像，首先在2D中定位目标部分，然后使用其结果来裁剪目标部分的点云。该方法利用裁剪点云和边界到边界-使用方向-切线(B2B-DTL)点对特征这一新颖的描述符，可以对点云缺乏关键细节的工业零件(如零件脊点云)进行姿态估计。实验结果表明，该方法具有足够的精度，且在线计算时间短，可用于真实的工厂环境。

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2018 IEEE International Conference on Robotics and Biomimetics (ROBIO)

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