Optimize data association of point cloud to improve the quality of mapping and positioning

Guangbing Zhou, Letian Quan, Kaixuan Huang, Shunqing Zhang, Shugong Xu
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Abstract

Purpose

Accurate mapping is crucial for the positioning and navigation of mobile robots. Recent advancements in algorithms and the accuracy of LiDAR sensors have led to a gradual improvement in map quality. However, challenges such as lag in closing loops and vignetting at map boundaries persist due to the discrete and sparse nature of raster map data. The purpose of this study is to reduce the error of map construction and improve the timeliness of closed loop.

Design/methodology/approach

In this letter, the authors introduce a method for dynamically adjusting point cloud distance constraints to optimize data association (ODA-d), effectively addressing these issues. The authors propose a dynamic threshold optimization method for matching point clouds to submaps during scan matching.

Findings

Large deviations in LiDAR sensor point cloud data, when incorporated into the submap, can result in irreparable errors in correlation matching and loop closure optimization. By implementing a data association framework with double constraints and dynamically adjusting the matching threshold, the authors significantly enhance submap quality. In addition, the authors introduce a dynamic fusion method that accounts for both submap size and the distance between submaps during the mapping process. ODA-d reduces errors between submaps and facilitates timely loop closure optimization.

Originality/value

The authors validate the localization accuracy of ODA-d by examining translation and rotation errors across three open data sets. Moreover, the authors compare the quality of map construction in a real-world environment, demonstrating the effectiveness of ODA-d.

优化点云数据关联,提高制图和定位质量
目的精确制图对移动机器人的定位和导航至关重要。近年来,随着算法和激光雷达传感器精度的提高,地图质量也在逐步改善。然而,由于光栅地图数据的离散性和稀疏性,诸如闭环滞后和地图边界晕影等挑战依然存在。本研究的目的是减少地图构建的误差,提高闭环的及时性。在这封信中,作者介绍了一种动态调整点云距离约束以优化数据关联(ODA-d)的方法,有效地解决了这些问题。作者提出了一种动态阈值优化方法,用于在扫描匹配过程中将点云匹配到子地图中。研究结果激光雷达传感器点云数据的巨大偏差一旦纳入子地图,就会导致相关匹配和闭环优化中出现无法弥补的错误。通过实施具有双重约束的数据关联框架并动态调整匹配阈值,作者显著提高了子地图的质量。此外,作者还引入了一种动态融合方法,在映射过程中考虑子映射的大小和子映射之间的距离。ODA-d 可减少子映射之间的误差,并有助于及时优化闭环。原创性/价值作者通过检查三个开放数据集的平移和旋转误差,验证了 ODA-d 的定位精度。此外,作者还比较了真实世界环境中的地图构建质量,证明了 ODA-d 的有效性。
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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