基于轨迹的道路交叉口拓扑自动标定

Lisheng Zhao, Jiali Mao, Min Pu, Guoping Liu, Cheqing Jin, Weining Qian, Aoying Zhou, Xiang Wen, Runbo Hu, Hua Chai
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引用次数: 9

摘要

数字地图中十字路口的不准确容易给移动导航等应用带来严重影响。成千上万辆汽车的大规模行驶轨迹使得交叉口拓扑结构频繁更新。本文首先将交叉口检测问题扩展为交叉口影响区的拓扑标定问题。与现有的道路交叉口更新方法不同,我们不仅可以确定道路交叉口的位置和覆盖范围,还可以根据与现有地图不匹配的轨迹找出整个影响区域内不正确或缺失的转弯路径。校准问题的重要挑战包括轨迹与异常数据的混合,道路交叉口的大小和形状不同等。为了解决上述挑战,我们提出了一个称为CITT的三相校准框架。该系统主要由轨道质量改进、核心区检测和交叉口影响区内拓扑标定三个部分组成。从这些分量中自动获得高质量的道路交叉口影响区拓扑。利用滴滴出行和芝加哥校园班车获得的轨迹数据与最先进的方法进行了大量实验对比,结果表明,CITT方法具有较强的稳定性和鲁棒性,显著优于现有方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automatic Calibration of Road Intersection Topology using Trajectories
The inaccuracy of road intersection in digital road map easily brings serious effects on the mobile navigation and other applications. Massive traveling trajectories of thousands of vehicles enable frequent updating of road intersection topology. In this paper, we first expand the road intersection detection issue into a topology calibration problem for road intersection influence zone. Distinct from the existing road intersection update methods, we not only determine the location and coverage of road intersection, but figure out incorrect or missing turning paths within whole influence zone based on unmatched trajectories as compared to the existing map. The important challenges of calibration issue include that trajectories are mixing with exceptional data, and road intersections are of different sizes and shapes, etc. To address above challenges, we propose a three-phase calibration framework, called CITT. It is composed of trajectory quality improving, core zone detection, and topology calibration within road intersection influence zone. From such components it can automatically obtain high quality topology of road intersection influence zone. Extensive experiments compared with the state-of-the-art methods using trajectory data obtained from Didi Chuxing and Chicago campus shuttles demonstrate that CITT method has strong stability and robustness and significantly outperforms the existing methods.
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