Abstract
The precision of railway map is becoming a significant issue for autonomous train scheduling, monitoring and maintenance, related location-based service (LBS), and further ensuring travel safety. Mobile 3D laser scanning is an efficient method for making relative high-precision railway track maps, particularly during the night period of railway maintenance, for light detection and ranging (LiDAR) can work without ambient light. In this paper, we propose an efficient and accurate railway track vectorization method based on the LiDAR point clouds from the self-built train Mobile Laser Scanning (MLS) system. Our method takes full use of railway track geometry and reflection intensity feature of LiDAR, without any trajectory prior information. Firstly, clear track points are filtered by intensity; then, a K-means clustering fused Region-Grow Fitting algorithm is applied. It can not only extract the line vector of railway track, but also can tell the track branches apart, especially on bends and turnout. Experiments were carried on using point clouds with an average density of 490 points per square meter. The experimental results show that the method not only can quickly extract linear objects such as railway track and catenary, but also can detect the railways even in complex real-world topologies such as at bends and turnouts. The precision of the detection area in bends and turnouts are 90.32% and 81.31% respectively, the sensitivity is 83.27% and 83.33%, respectively. Moreover, it can identify the track networks.
Highlights
Railway traffic constitutes a significant part of travels, which is considered as a safe, efficient and comfortable transportation
This study aims to propose an effective framework for automatic extraction of railway tracks, especially on bends and turnouts from Mobile Laser Scanning (MLS) point clouds
4.1 LRoesuuletst al. [20] used principal component analysis (PCA) to optimize the results of rail extraction
Summary
Railway traffic constitutes a significant part of travels, which is considered as a safe, efficient and comfortable transportation. Rail transport is one of important choice for passengers all over the world [1]. It is well known that potential safety hazards resulting from material/structural degradation under the cyclical loading and natural erosion. To address such safety concerns, staff that traverses and visually inspects along the railroad corridor regularly monitors the rail track. Due to low pace and human error in dark environments, the manual inspection is incompetent. The method based semiautomated analysis of image and video data can provide abundant spatial information but requires excellent lighting conditions (e.g., daylight and weather)
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