An Analysis of Factors Affecting Point Cloud Registration for Bin Picking

2020 International Conference on Electronics, Information, and Communication (ICEIC) Pub Date : 2020-01-01 DOI:10.1109/ICEIC49074.2020.9051361

Jongwook Kim, Hyungmin Kim, Jong-Il Park

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引用次数: 2

Abstract

The robotic bin picking system is commonly used to automate processes in the manufacturing industry, by estimating the six degree-of-freedom (6-DoF) pose of an object. In particular, in vision-based systems, the pose of an object is estimated by registering a 3D point cloud acquired from a computer-aided design (CAD) model with a 2.5D point cloud acquired from a depth map. The registration process requires the correspondence points between 3D point cloud and 2.5D point cloud. Unfortunately, since the 3D point cloud and the 2.5D point cloud have different dimensions, performing registration is more challenging than with equivalent dimensions. In this paper, therefore, we analyze the process of 3D point cloud to 2.5D point cloud registration through the experiments to perform stable bin picking task. For the experiments, 2.5D point cloud is synthesized from 3D CAD model and uniformly adjusted for density and depth noise. By registering 3D point cloud to adjusted 2.5D point cloud, we quantitatively analyze how the adjusted density and depth noise affect the registration process.

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影响拣箱点云配准的因素分析

机器人拣料仓系统通常用于自动化过程在制造业中，通过估计一个物体的六自由度(6-DoF)姿态。特别是，在基于视觉的系统中，通过注册从计算机辅助设计(CAD)模型获得的3D点云与从深度图获得的2.5D点云来估计物体的姿态。配准过程需要3D点云和2.5D点云之间的对应点。不幸的是，由于3D点云和2.5D点云具有不同的维度，因此执行配准比等效维度更具挑战性。因此，本文通过实验分析了三维点云到2.5D点云配准的过程，实现了稳定的拣箱任务。实验中，由三维CAD模型合成2.5D点云，并对密度和深度噪声进行均匀调整。通过将三维点云配准到调整后的2.5D点云，定量分析调整后的密度和深度噪声对配准过程的影响。

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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2020 International Conference on Electronics, Information, and Communication (ICEIC)

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