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Motion-aware 3D Gaussian Splatting for Efficient Dynamic Scene Reconstruction


Temel Kavramlar
Enhancing dynamic 3D Gaussian Splatting with motion cues from optical flow for efficient scene reconstruction.
Özet

The article introduces a novel framework for dynamic scene reconstruction using 3D Gaussian splatting. It addresses the limitations of existing methods by incorporating motion information from optical flow. The proposed framework enhances different paradigms of dynamic 3DGS by establishing a correspondence between Gaussian movements and pixel-level flows. It introduces uncertainty-aware flow augmentation and transient-aware deformation auxiliary to improve the modeling process. Extensive experiments demonstrate the effectiveness of the method in multi-view and monocular scenes, showing superior rendering quality and efficiency compared to baselines.

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İstatistikler
"Compared with the baselines, our method shows significant superiority in both rendering quality and efficiency." "Our main contributions can be summarized as follows: - To the best of our knowledge, we are the first to systematically explore the exploitation of flow prior in 3DGS-based dynamic scene reconstruction."
Alıntılar
"Compared with the baselines, our method shows significant superiority in both rendering quality and efficiency." "Our main contributions can be summarized as follows: - To the best of our knowledge, we are the first to systematically explore the exploitation of flow prior in 3DGS-based dynamic scene reconstruction."

Önemli Bilgiler Şuradan Elde Edildi

by Zhiyang Guo,... : arxiv.org 03-19-2024

https://arxiv.org/pdf/2403.11447.pdf
Motion-aware 3D Gaussian Splatting for Efficient Dynamic Scene  Reconstruction

Daha Derin Sorular

How does motion blur impact dynamic modeling using optical flow predictions

Motion blur can significantly impact dynamic modeling using optical flow predictions by introducing inaccuracies in the motion estimation process. When there is motion blur in the input images, it can distort the appearance of objects and lead to errors in optical flow calculations. This distortion can result in incorrect or imprecise motion vectors being estimated, affecting the accuracy of dynamic scene reconstruction. In essence, motion blur acts as a noise factor that complicates the extraction of accurate motion information from image sequences.

What are potential challenges in breaking through limitations of motion uncertainty in monocular scenes

Breaking through limitations of motion uncertainty in monocular scenes poses several challenges. One key challenge is dealing with ambiguities arising from limited visual cues available in monocular setups. Without multiple viewpoints for reference, accurately estimating complex 3D motions becomes more challenging due to inherent depth ambiguity and occlusions present in single-view scenarios. Additionally, variations in camera movements and scale changes further exacerbate uncertainties related to object motions within the scene.

How can additional priors be explored to enhance dynamic scene reconstruction further

To enhance dynamic scene reconstruction further, additional priors could be explored to provide supplementary information for improved modeling accuracy. Some potential avenues for exploring additional priors include leveraging semantic segmentation data to guide object boundaries and structures during reconstruction, incorporating temporal consistency constraints based on object dynamics over time, integrating physical constraints such as lighting conditions or material properties into the optimization process, and utilizing contextual cues from auxiliary sensors like IMU data for better understanding spatial relationships between objects within a scene.
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