Abstract
Abstract. The 3D information of road infrastructures are gaining importance with the development of autonomous driving. The exact absolute position and height of lane markings, for example, support lane-accurate localization. Several approaches have been proposed for the 3D reconstruction of line features from multi-view airborne optical imagery. However, standard appearance-based matching approaches for 3D reconstruction are hardly applicable on lane markings due to the similar color profile of all lane markings and the lack of textures in their neighboring areas. We present a workflow for 3D lane markings reconstruction without explicit feature matching process using multi-view aerial imagery. The aim is to optimize the best 3D line location by minimizing the distance from its back projection to the detected 2D line in all the covering images. Firstly, the lane markings are automatically extracted from aerial images using standard line detection algorithms. By projecting these extracted lines onto the Semi-Global Matching (SGM) generated Digital Surface Model (DSM), the approximate 3D line segments are generated. Starting from these approximations, the 3D lines are iteratively refined based on the detected 2D lines in the original images and the viewing geometry. The proposed approach relies on precise detection of 2D lines in image space, a pre-knowledge of the approximate 3D line segments, and it heavily relies on image orientations. Nevertheless, it avoids the problem of non-textured neighborhood and is not limited to lines of finite length. The theoretical precision of 3D reconstruction with the proposed framework is evaluated.
Highlights
The availability of large-scale, accurate high resolution 3D information of roads with lane markings and road infrastructure plays an important role towards autonomous driving
The standard workflow with aerial images would be to project the images onto a Digital Surface Model (DSM) and to derive the information in the projected imagery, but the generation of DSM from stereo images is challenging in the regions with low textures
With 95% confidence we can claim that the DSM profile is in average, statistically and significantly lower than the reconstructed line segments for at least 15 centimeters in this region
Summary
The availability of large-scale, accurate high resolution 3D information of roads with lane markings and road infrastructure plays an important role towards autonomous driving. Compared to optical satellite data, acquiring large-scale 3D lane markings by optical aerial imagery is more efficient and has higher accuracy and spatial resolution. In view of the fact, that in Germany exists no area-wide, high resolution 3D information of the road surfaces including lane markings, new methods to derive this information are demanded. It is desired to improve the quality of the DSM on the road surfaces by exploiting the line character of the lane markings. A framework to automatically detect the lane markings in the unprojected aerial imagery, and refine the 3D information of the road surface by exploiting the line character of the lane markings is proposed. The framework will be tested on aerial imagery from the German highway A9 taken on 29th March 2017 from the DLR helicopter BO-105
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