Gaussian-plus-SDF SLAM: High-fidelity 3D reconstruction at 150+ fps

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摘要 While recent Gaussian-based SLAM methods achieve photorealistic reconstruction from RGB-D data, their computational performance remains a critical bottleneck. State-of-the-art techniques operate at less than 20 fps, significantly lagging behind geometry-based approaches like KinectFusion (hundreds of fps). This limitation stems from the heavy computational burden: modeling scenes requires numerous Gaussians and complex iterative optimization to fit RGB-D data;insufficient Gaussian counts or optimization iterations cause severe quality degradation. To address this, we propose a Gaussian-SDF hybrid representation, combining a colorized signed distance field (SDF) for smooth geometry and appearance with 3D Gaussians to capture underrepresented details. The SDF is efficiently constructed via RGB-D fusion (as in geometry-based methods), while Gaussians undergo iterative optimization. Our representation enables significant Gaussian reduction (50% fewer) by avoiding full-scene Gaussian modeling, and efficient Gaussian optimization (75% fewer iterations) through targeted appearance refinement. Building upon this representation, we develop GPS-SLAM (Gaussian-plus-SDF SLAM), a real-time 3D reconstruction system achieving over 150 fps on real-world Azure Kinect sequences, faster by an order-of-magnitude than state-of-the-art techniques while maintaining comparable reconstruction quality. The source code and data are available at https://gapszju.github.io/GPS-SLAM.

作者 Zhexi Peng Kun Zhou Tianjia Shao

机构地区 State Key Lab of CAD&CG Hangzhou Research Institute of AI and Holographic Technology

出处《Computational Visual Media》 2025年第6期1195-1208,共14页 计算可视媒体(英文版)

基金 supported by the National Natural Science Foundation of China(U23A20311,62421003).

关键词 3D reconstruction Gaussian splatting SLAM RGBD cameras 3D scanning signed distance fields

分类号 TP391.41 [自动化与计算机技术—计算机应用技术]

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Computational Visual Media

2025年第6期

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Gaussian-plus-SDF SLAM: High-fidelity 3D reconstruction at 150+ fps

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