A keypoint-based global association network for lane detection

J Wang, Y Ma, S Huang, T Hui… - Proceedings of the …, 2022 - openaccess.thecvf.com
Proceedings of the IEEE/CVF Conference on Computer Vision and …, 2022openaccess.thecvf.com
Lane detection is a challenging task that requires predicting complex topology shapes of
lane lines and distinguishing different types of lanes simultaneously. Earlier works follow a
top-down roadmap to regress predefined anchors into various shapes of lane lines, which
lacks enough flexibility to fit complex shapes of lanes due to the fixed anchor shapes. Lately,
some works propose to formulate lane detection as a keypoint estimation problem to
describe the shapes of lane lines more flexibly and gradually group adjacent keypoints …
Abstract
Lane detection is a challenging task that requires predicting complex topology shapes of lane lines and distinguishing different types of lanes simultaneously. Earlier works follow a top-down roadmap to regress predefined anchors into various shapes of lane lines, which lacks enough flexibility to fit complex shapes of lanes due to the fixed anchor shapes. Lately, some works propose to formulate lane detection as a keypoint estimation problem to describe the shapes of lane lines more flexibly and gradually group adjacent keypoints belonging to the same lane line in a point-by-point manner, which is inefficient and time-consuming during postprocessing. In this paper, we propose a Global Association Network (GANet) to formulate the lane detection problem from a new perspective, where each keypoint is directly regressed to the starting point of the lane line instead of point-by-point extension. Concretely, the association of keypoints to their belonged lane line is conducted by predicting their offsets to the corresponding starting points of lanes globally without dependence on each other, which could be done in parallel to greatly improve efficiency. In addition, we further propose a Lane-aware Feature Aggregator (LFA), which adaptively captures the local correlations between adjacent keypoints to supplement local information to the global association. Extensive experiments on two popular lane detection benchmarks show that our method outperforms previous methods with F1 score of 79.63% on CULane and 97.71% on Tusimple dataset with high FPS.
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