Abstract To prevent traffic accidents at unsignalized intersections, it is essential to proactively evaluate potential risks around intersections. Although existing research has developed a method to evaluate the visibility around intersections from the vehicle driver’s viewpoint for risk evaluation, the visibility from that of Vulnerable Road Users (VRUs) is not assumed. Thus, this study proposes a framework for evaluating visibility from arbitrary viewpoints on the road, considering all types of traffic participants. As an indicator related to visibility evaluation, the framework uses the Field-of-View (FOV), which represents visibility around the intersection. To generate an FOV map, the framework constructs obstacle points from a point cloud map generated by a LiDAR SLAM algorithm. Then, comprehensive viewpoints are placed along the road network, and the FOV is calculated from each viewpoint. The proposed framework is implemented and tested in real-world environments. The evaluation results show that the mean absolute error between the calculated and measured FOV is 2.06 deg, which is under the estimation resolution required to distinguish a pedestrian on the intersecting road, indicating sufficient precision for practical use in future safety applications. Furthermore, the framework correctly evaluated variations in the FOV caused by differences in geometrical characteristics of intersections, travel positions on the road, and viewpoint heights.
Hori et al. (Thu,) studied this question.
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