Robust LiDAR visual inertial odometry for dynamic scenes

IF 2.7 3区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Measurement Science and Technology Pub Date : 2024-06-13 DOI:10.1088/1361-6501/ad57dc

Gang Peng, Chong Cao, Bocheng Chen, Lu Hu, Dingxin He

引用次数: 0

Abstract

The traditional visual inertial simultaneous localisation and mapping (SLAM) system does not fully consider the dynamic objects in the scene, which can reduce the quality of visual feature point matching. In addition, dynamic objects in the scene can cause illumination changes which reduce the performance of the visual front end and loop closure detection of the system. To address this problem, this study combines 3D light detection and ranging (LiDAR), camera, and inertial measurement units (IMUs) in a tightly coupled manner to estimate the pose of mobile robots, thereby proposing a robust LiDAR visual inertial odometry that can effectively filter out dynamic feature points. In addition, a dynamic feature point detection algorithm with attention mechanism is introduced for target detection and optical flow tracking. In experimental analyses on public datasets and real indoor scenes, the proposed method improved the accuracy and robustness of pose estimation in scenes with dynamic objects and varying illumination compared with traditional methods.

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用于动态场景的鲁棒激光雷达视觉惯性里程测量法

传统的视觉惯性同步定位与映射（SLAM）系统没有充分考虑场景中的动态物体，这会降低视觉特征点匹配的质量。此外，场景中的动态物体会导致光照变化，从而降低视觉前端和系统闭环检测的性能。为解决这一问题，本研究将三维光探测与测距（LiDAR）、摄像头和惯性测量单元（IMUs）以紧密耦合的方式结合起来，对移动机器人的姿态进行估计，从而提出了一种鲁棒的 LiDAR 视觉惯性里程计，可有效过滤掉动态特征点。此外，还引入了一种具有注意力机制的动态特征点检测算法，用于目标检测和光流跟踪。在公共数据集和真实室内场景的实验分析中，与传统方法相比，所提出的方法提高了在有动态物体和光照变化的场景中姿态估计的准确性和鲁棒性。

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

Measurement Science and Technology 工程技术-工程：综合

CiteScore

4.30

自引率

16.70%

发文量

656

审稿时长

4.9 months

期刊介绍： Measurement Science and Technology publishes articles on new measurement techniques and associated instrumentation. Papers that describe experiments must represent an advance in measurement science or measurement technique rather than the application of established experimental technique. Bearing in mind the multidisciplinary nature of the journal, authors must provide an introduction to their work that makes clear the novelty, significance, broader relevance of their work in a measurement context and relevance to the readership of Measurement Science and Technology. All submitted articles should contain consideration of the uncertainty, precision and/or accuracy of the measurements presented. Subject coverage includes the theory, practice and application of measurement in physics, chemistry, engineering and the environmental and life sciences from inception to commercial exploitation. Publications in the journal should emphasize the novelty of reported methods, characterize them and demonstrate their performance using examples or applications.

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