Point2Lane: Polyline-Based Reconstruction With Principal Points for Lane Detection

In this work, the authors observed that a nonlinear line could be expressed with a set of linear lines. They propose a novel lane detection method with polyline-based reconstruction based on this hypothesis. They define the optimal principal points with a new metric, the principal score, to generate the polyline. According to the principal score, they select principal points having a high influence on lane reconstruction and simply reproduce the target lane by connecting them. Additionally, conventional methods predict a fixed number of parameters to express each lane. However, this can limit an ability to represent a lane curvature and cause inaccurate detection results. Therefore, they set the number of principal points to be dynamically changed depending on the lane curvature to solve this problem. This allows the model to make flexible detection results reflecting the characteristics of each lane. They also propose a training strategy with a new piece-wise linear equation-based loss function. With this strategy, the model is fine-tuned to predict the principal points representing the curved parts of the lane well. Last, they propose a spatial context-aware feature flip fusion module to exploit the symmetric property of road images. This module helps the model selectively utilize the spatial context in the flipped feature map based on the lane density. They effectively reduce the adverse effects, especially the false positives of the existing feature flip fusion module misaligned on asymmetrical images. The experiments show that the proposed method provides competitive lane detection results compared to state-of-the-art methods.

Language

  • English

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Filing Info

  • Accession Number: 01911739
  • Record Type: Publication
  • Files: TRIS
  • Created Date: Mar 12 2024 4:49PM