Depth Matters: Exploring Deep Interactions of RGB-D for Semantic Segmentation in Traffic Scenes

arXiv - CS - Computer Vision and Pattern Recognition Pub Date : 2024-09-12 DOI:arxiv-2409.07995

Siyu Chen, Ting Han, Changshe Zhang, Weiquan Liu, Jinhe Su, Zongyue Wang, Guorong Cai

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Abstract

RGB-D has gradually become a crucial data source for understanding complex scenes in assisted driving. However, existing studies have paid insufficient attention to the intrinsic spatial properties of depth maps. This oversight significantly impacts the attention representation, leading to prediction errors caused by attention shift issues. To this end, we propose a novel learnable Depth interaction Pyramid Transformer (DiPFormer) to explore the effectiveness of depth. Firstly, we introduce Depth Spatial-Aware Optimization (Depth SAO) as offset to represent real-world spatial relationships. Secondly, the similarity in the feature space of RGB-D is learned by Depth Linear Cross-Attention (Depth LCA) to clarify spatial differences at the pixel level. Finally, an MLP Decoder is utilized to effectively fuse multi-scale features for meeting real-time requirements. Comprehensive experiments demonstrate that the proposed DiPFormer significantly addresses the issue of attention misalignment in both road detection (+7.5%) and semantic segmentation (+4.9% / +1.5%) tasks. DiPFormer achieves state-of-the-art performance on the KITTI (97.57% F-score on KITTI road and 68.74% mIoU on KITTI-360) and Cityscapes (83.4% mIoU) datasets.

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深度很重要：探索 RGB-D 的深度交互，实现交通场景中的语义分割

RGB-D 已逐渐成为辅助驾驶中了解复杂场景的重要数据源。然而，现有研究对深度图的内在空间属性关注不够。这种疏忽严重影响了注意力表征，导致注意力转移问题造成预测误差。为此，我们提出了一种新颖的可学习深度交互金字塔转换器（Depth interaction Pyramid Transformer，DiPFormer）来探索深度的有效性。首先，我们引入深度空间感知优化（Depth Spatial-Aware Optimization，Depth SAO）作为偏移量来表示真实世界的空间关系。其次，通过深度线性交叉注意（Depth LinearCross-Attention，DCA）学习 RGB-D 特征空间中的相似性，以明确像素级的空间差异。最后，利用 MLP 解码器有效融合多尺度特征，以满足实时性要求。综合实验证明，所提出的 DiPFormer 显著解决了道路检测（+7.5%）和语义分割（+4.9% /+1.5%）任务中的注意力调整问题。DiPFormer 在 KITTI（在 KITTI 道路上的 F-score 为 97.57%，在 KITTI-360 上的 mIoU 为 68.74%）和 Cityscapes（mIoU 为 83.4%）数据集上取得了最先进的性能。

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arXiv - CS - Computer Vision and Pattern Recognition

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