Bibliographic Information: Marrie, J., M´en´egaux, R., Arbel, M., Larlus, D., & Mairal, J. (2024). LUDVIG: Learning-free Uplifting of 2D Visual features to Gaussian Splatting scenes. arXiv preprint arXiv:2410.14462.
Research Objective: This paper aims to develop a faster and more efficient method for transferring 2D visual features extracted by large pre-trained models into 3D Gaussian Splatting representations for semantic segmentation tasks.
Methodology: The authors propose a learning-free uplifting approach that leverages the rendering weights of Gaussian Splatting to aggregate 2D features or semantic masks into 3D representations. They demonstrate the effectiveness of their method by uplifting features from DINOv2 and semantic masks from SAM and SAM2. For DINOv2, they further enhance segmentation by incorporating 3D scene geometry through graph diffusion.
Key Findings: The proposed learning-free uplifting method achieves state-of-the-art segmentation results when applied to SAM-generated semantic masks, comparable to existing optimization-based methods while being significantly faster. Moreover, uplifting generic DINOv2 features, combined with graph diffusion, produces competitive segmentation results despite DINOv2 not being specifically trained for segmentation tasks.
Main Conclusions: The paper demonstrates that a simple, learning-free process is highly effective for uplifting 2D features or semantic masks into 3D Gaussian Splatting scenes. This approach offers a computationally efficient and adaptable alternative to existing optimization-based methods for integrating 2D visual features into 3D scene representations.
Significance: This research contributes to the field of 3D scene understanding by introducing a novel and efficient method for semantic segmentation. The proposed approach has the potential to improve the performance and efficiency of various applications, including robotics, augmented reality, and scene editing.
Limitations and Future Research: The paper primarily focuses on semantic segmentation and could be extended to other 3D scene understanding tasks. Future research could explore the application of this method to more complex scenes and investigate the integration of view-dependent features for enhanced 3D representations.
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by Juli... lúc arxiv.org 10-21-2024
https://arxiv.org/pdf/2410.14462.pdfYêu cầu sâu hơn