DT-LSD: Deformable Transformer-based Line Segment Detection
This work improves a fundamental low-level vision task, potentially benefiting advanced methods that rely on line detection, though it appears incremental by building on transformer-based approaches.
The paper tackles line segment detection in computer vision by introducing DT-LSD, a deformable transformer-based model that addresses limitations of previous transformer methods, achieving faster training (34x speedup) and outperforming CNN-based models with accuracy scores like 71.7 sAP10 on the Wireframe dataset.
Line segment detection is a fundamental low-level task in computer vision, and improvements in this task can impact more advanced methods that depend on it. Most new methods developed for line segment detection are based on Convolutional Neural Networks (CNNs). Our paper seeks to address challenges that prevent the wider adoption of transformer-based methods for line segment detection. More specifically, we introduce a new model called Deformable Transformer-based Line Segment Detection (DT-LSD) that supports cross-scale interactions and can be trained quickly. This work proposes a novel Deformable Transformer-based Line Segment Detector (DT-LSD) that addresses LETR's drawbacks. For faster training, we introduce Line Contrastive DeNoising (LCDN), a technique that stabilizes the one-to-one matching process and speeds up training by 34$\times$. We show that DT-LSD is faster and more accurate than its predecessor transformer-based model (LETR) and outperforms all CNN-based models in terms of accuracy. In the Wireframe dataset, DT-LSD achieves 71.7 for $sAP^{10}$ and 73.9 for $sAP^{15}$; while 33.2 for $sAP^{10}$ and 35.1 for $sAP^{15}$ in the YorkUrban dataset.