Transformer fusion for indoor RGB-D semantic segmentation

IF 4.3 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Computer Vision and Image Understanding Pub Date : 2024-09-13 DOI:10.1016/j.cviu.2024.104174

Zongwei Wu , Zhuyun Zhou , Guillaume Allibert , Christophe Stolz , Cédric Demonceaux , Chao Ma

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引用次数: 0

Abstract

Fusing geometric cues with visual appearance is an imperative theme for RGB-D indoor semantic segmentation. Existing methods commonly adopt convolutional modules to aggregate multi-modal features, paying little attention to explicitly leveraging the long-range dependencies in feature fusion. Therefore, it is challenging for existing methods to accurately segment objects with large-scale variations. In this paper, we propose a novel transformer-based fusion scheme, named TransD-Fusion, to better model contextualized awareness. Specifically, TransD-Fusion consists of a self-refinement module, a calibration scheme with cross-interaction, and a depth-guided fusion. The objective is to first improve modality-specific features with self- and cross-attention, and then explore the geometric cues to better segment objects sharing a similar visual appearance. Additionally, our transformer fusion benefits from a semantic-aware position encoding which spatially constrains the attention to neighboring pixels. Extensive experiments on RGB-D benchmarks demonstrate that the proposed method performs well over the state-of-the-art methods by large margins.

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变换器融合用于室内 RGB-D 语义分割

融合几何线索与视觉外观是 RGB-D 室内语义分割的一个必要主题。现有方法通常采用卷积模块来聚合多模态特征，很少注意在特征融合中明确利用长程依赖关系。因此，现有方法很难准确地分割具有大规模变化的物体。在本文中，我们提出了一种新颖的基于变换器的融合方案，命名为 TransD-Fusion，以更好地模拟情境感知。具体来说，TransD-Fusion 由一个自改进模块、一个交叉交互校准方案和一个深度引导融合方案组成。我们的目标是首先通过自我关注和交叉关注改进特定模态特征，然后探索几何线索，以更好地分割具有相似视觉外观的物体。此外，我们的变换器融合还得益于语义感知位置编码，它在空间上限制了对邻近像素的关注。在 RGB-D 基准上进行的大量实验表明，所提出的方法在性能上远远优于最先进的方法。

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来源期刊

Computer Vision and Image Understanding 工程技术-工程：电子与电气

CiteScore

7.80

自引率

4.40%

发文量

112

审稿时长

79 days

期刊介绍： The central focus of this journal is the computer analysis of pictorial information. Computer Vision and Image Understanding publishes papers covering all aspects of image analysis from the low-level, iconic processes of early vision to the high-level, symbolic processes of recognition and interpretation. A wide range of topics in the image understanding area is covered, including papers offering insights that differ from predominant views. Research Areas Include: • Theory • Early vision • Data structures and representations • Shape • Range • Motion • Matching and recognition • Architecture and languages • Vision systems