Delineating Sight Occlusions of Head-On Traffic Signboards under Varying Available Sight Distances Using LiDAR Point Clouds

Jin Wang, Ziang Song, Ziyi Zhang, Yanyan Chen, Niuqi Xu
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Abstract

It is essential to delineate visual occlusions of head-on traffic signboards under varying available sight distances (ASDs) to improve road safety and guide maintenance. However, the status of sight occlusions in actual road scenarios is unclear because of the lack of an automatic and quantitative evaluation approach. This study presents a new cluster attention traffic-sign occlusion (CASO) method with a cluster attention traffic-sign network (CASNet) to automatically classify road infrastructures, and an occlusion delineating module to dynamically describe the occlusions of head-on traffic signboards using point clouds. CASNet consists of a cluster module to alleviate the interference of redundant object features and an attention module to focus on learning local features of small samples on road scenes. The occlusion delineating module is investigated to rapidly construct a signboard-related oblique cone and dynamically assess occlusions. The sight occlusions change with varying ASDs and are delineated by two indices: the degree of shaded signboard area, and the degree of occlusion volume from the driver’s dynamic perspective to the head-on signboard. Compared with the state-of-the-art networks, the experimental extraction results achieved for signboards show an overall improved performance. The degree of occlusion volumes toward head-on signboards fluctuates between 26.75% and 36.70%, and the degree of shaded areas on signboards increases from 22.75% to 59.63%, with ASDs varying from 20 to 75 m. This research contributes to evaluating road safety in intelligent transportation systems and accurately guiding the allocation of maintenance budgets to the heavily occluded road sections.
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利用激光雷达点云划分不同可用视距下迎面交通标志板的视线遮挡范围
在不同的可用视距(ASDs)条件下划定迎面交通标志板的视线遮挡对改善道路安全和指导维护工作至关重要。然而,由于缺乏自动定量评估方法,实际道路场景中的视线遮挡状况并不明确。本研究提出了一种新的集群关注交通标志遮挡(CASO)方法,利用集群关注交通标志网络(CASNet)对道路基础设施进行自动分类,并利用遮挡划定模块,利用点云动态描述迎面交通标志板的遮挡情况。CASNet 由集群模块和注意力模块组成,集群模块用于减轻冗余对象特征的干扰,注意力模块则侧重于学习道路场景小样本的局部特征。研究了遮挡划定模块,以快速构建与标志牌相关的斜锥体,并动态评估遮挡情况。视线遮挡会随着 ASD 的变化而变化,并通过两个指数进行划分:标志牌阴影面积程度,以及从驾驶员动态视角到迎面标志牌的遮挡体积程度。与最先进的网络相比,招牌的实验提取结果表明整体性能有所提高。迎面标志牌的遮挡量在 26.75% 和 36.70% 之间波动,标志牌上阴影区域的遮挡量从 22.75% 增加到 59.63%,ASD 从 20 米到 75 米不等。这项研究有助于评估智能交通系统中的道路安全性,并准确指导对严重遮挡路段的维护预算分配。
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