NIS-SLAM:用于三维一致场景理解的神经隐含语义 RGB-D SLAM

Hongjia Zhai;Gan Huang;Qirui Hu;Guanglin Li;Hujun Bao;Guofeng Zhang
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引用次数: 0

摘要

近年来,神经隐式表征范例在同步定位与绘图(SLAM)领域获得了极大关注。然而,在场景理解方面,现有方法还存在明显差距。在本文中,我们介绍了一种高效的神经隐式语义 RGB-D SLAM 系统 NIS-SLAM,该系统利用预先训练好的二维分割网络来学习一致的语义表征。具体来说,为了实现高保真表面重建和空间一致性场景理解,我们结合了基于四面体的高频多分辨率特征和低频位置编码作为隐式场景表征。此外,针对多视角二维分割结果不一致的问题,我们提出了一种融合策略,将之前非关键帧的语义概率整合到关键帧中,以实现一致的语义学习。此外,我们还实施了基于置信度的像素采样和渐进优化权重函数,以实现稳健的相机跟踪。在各种数据集上的广泛实验结果表明,与其他现有的神经密集隐式 RGB-D SLAM 方法相比,我们的系统具有更好或更有竞争力的性能。最后,我们还展示了我们的方法可用于增强现实应用。项目页面:https://zju3dv.github.io/nis_slam。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NIS-SLAM: Neural Implicit Semantic RGB-D SLAM for 3D Consistent Scene Understanding
In recent years, the paradigm of neural implicit representations has gained substantial attention in the field of Simultaneous Localization and Mapping (SLAM). However, a notable gap exists in the existing approaches when it comes to scene understanding. In this paper, we introduce NIS-SLAM, an efficient neural implicit semantic RGB-D SLAM system, that leverages a pre-trained 2D segmentation network to learn consistent semantic representations. Specifically, for high-fidelity surface reconstruction and spatial consistent scene understanding, we combine high-frequency multi-resolution tetrahedron-based features and low-frequency positional encoding as the implicit scene representations. Besides, to address the inconsistency of 2D segmentation results from multiple views, we propose a fusion strategy that integrates the semantic probabilities from previous non-keyframes into keyframes to achieve consistent semantic learning. Furthermore, we implement a confidence-based pixel sampling and progressive optimization weight function for robust camera tracking. Extensive experimental results on various datasets show the better or more competitive performance of our system when compared to other existing neural dense implicit RGB-D SLAM approaches. Finally, we also show that our approach can be used in augmented reality applications. Project page: https://zju3dv.github.io/nis_slam.
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