2D LiDAR and camera fusion in 3D modeling of indoor environment

2015 National Aerospace and Electronics Conference (NAECON) Pub Date : 2015-06-15 DOI:10.1109/NAECON.2015.7443100

Juan Li, Xiang He, Jia Li

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引用次数: 37

Abstract

Detailed 3D modeling of indoor scene has become an important topic in many research fields. It can provide extensive information about the environment and boost various location based services, such as interactive gaming and indoor navigation. This paper presents an indoor scene construction approach using 2D line-scan LiDAR and entry-level digital camera. Both devices are mounted rigidly on a robotic servo, which sweeps vertically to cover the third dimension. Fiducial target based extrinsic calibration is applied to acquire transformation matrices between LiDAR and camera. Based on the transformation matrix, we perform registration to fuse the color images from the camera with the 3D points cloud from the LiDAR. The whole system setup has much lower cost as compared to systems using 3D LiDAR and omnidirectional camera. Using pre-calculated transformation matrices instead of feature extraction techniques such as SIFT or SURF in registration gives better fusion result and lower computational complexity. The experiments carried out in office building environment show promising results of our approach.

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二维激光雷达与相机融合在室内环境三维建模中的应用

室内场景的详细三维建模已成为许多研究领域的重要课题。它可以提供有关环境的广泛信息，并促进各种基于位置的服务，如互动游戏和室内导航。本文提出了一种基于二维线扫描激光雷达和入门级数码相机的室内场景构建方法。这两个装置都牢牢地安装在一个机器人伺服上，它垂直地扫描以覆盖第三维度。采用基于基准目标的外部定标方法获取激光雷达与相机之间的变换矩阵。基于变换矩阵，进行配准，将相机彩色图像与激光雷达三维点云进行融合。与使用3D激光雷达和全向摄像头的系统相比，整个系统的设置成本要低得多。使用预计算的变换矩阵代替SIFT或SURF等特征提取技术进行配准，融合效果更好，计算复杂度更低。在办公楼环境中进行的实验表明，该方法取得了良好的效果。

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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2015 National Aerospace and Electronics Conference (NAECON)

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