Traffic signs are integral elements of any transportation network; however, keeping records of those signs and their condition is a tedious, time-consuming, and labor-intensive process. As a result, many agencies worldwide have been working toward automating the process. One form of automation uses remote sensing techniques to extract traffic sign information. An algorithm is proposed that can automatically extract traffic signs from mobile light detection and ranging data. After the number of signs on a road segment has been determined, the coordinates of those signs are mapped onto the road segment. The sign extraction procedure involves applying multiple filters to the point cloud data and clustering the data into traffic signs. The proposed algorithm was tested on three highways located in different regions of the province of Alberta, Canada. The segments on which the algorithm was tested include a two-lane undivided rural road and four-lane divided highways. The highway geometry varied, as did vegetation and tree density. Success rates ranged from 93% to 100%, and the algorithm performed better on highways without overhead signs. Results indicate that the proposed method is simple but effective for creating an accurate inventory of traffic signs.
Automated Highway Sign Extraction Using Lidar Data
Transportation Research Record: Journal of the Transportation Research Board
2017-01-01
Article (Journal)
Electronic Resource
English
Automated Extraction of Horizontal Curve Attributes using LiDAR Data
Transportation Research Record | 2018
|Automated traffic sign and light pole detection in mobile LiDAR scanning data
IET | 2019
|Automated traffic sign and light pole detection in mobile LiDAR scanning data
Wiley | 2019
|Transportation Research Record | 2022
|