Refining Gaussian Splatting: A Volumetric Densification Approach

Mohamed Abdul Gafoor; Marius Preda; Titus Zaharia

doi:10.24132/CSRN.2025-6

Refining Gaussian Splatting: A Volumetric Densification Approach

Mohamed Abdul Gafoor
, Marius Preda
, Titus Zaharia

Telecom Sudparis

Résultats de recherche: Contribution à un journal › Article de conférence › Revue par des pairs

Résumé

Achieving high-quality novel view synthesis in 3D Gaussian Splatting (3DGS) often depends on effective point primitive management. The underlying Adaptive Density Control (ADC) process addresses this issue by automating densification and pruning. Yet, the vanilla 3DGS densification strategy shows key shortcomings. To address this issue, in this paper we introduce a novel density control method, which exploits the volumes of inertia associated to each Gaussian function to guide the refinement process. Furthermore, we study the effect of both traditional Structure from Motion (SfM) and Deep Image Matching (DIM) methods for point cloud initialization. Extensive experimental evaluations on the Mip-NeRF 360 dataset demonstrate that our approach surpasses 3DGS in reconstruction quality, delivering encouraging performance across diverse scenes.

langue originale	Anglais
Pages (de - à)	55-64
Nombre de pages	10
journal	Computer Science Research Notes
Volume	3501
Numéro de publication	2025
Les DOIs	https://doi.org/10.24132/CSRN.2025-6
état	Publié - 1 janv. 2025
Evénement	33rd International Conference in Central Europe on Computer Graphics, Visualization and Computer Vision, WSCG 2025 - Plzen, République tchcque Durée: 26 mai 2025 → 29 mai 2025

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10.24132/CSRN.2025-6

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title = "Refining Gaussian Splatting: A Volumetric Densification Approach",

abstract = "Achieving high-quality novel view synthesis in 3D Gaussian Splatting (3DGS) often depends on effective point primitive management. The underlying Adaptive Density Control (ADC) process addresses this issue by automating densification and pruning. Yet, the vanilla 3DGS densification strategy shows key shortcomings. To address this issue, in this paper we introduce a novel density control method, which exploits the volumes of inertia associated to each Gaussian function to guide the refinement process. Furthermore, we study the effect of both traditional Structure from Motion (SfM) and Deep Image Matching (DIM) methods for point cloud initialization. Extensive experimental evaluations on the Mip-NeRF 360 dataset demonstrate that our approach surpasses 3DGS in reconstruction quality, delivering encouraging performance across diverse scenes.",

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AU - Zaharia, Titus

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N2 - Achieving high-quality novel view synthesis in 3D Gaussian Splatting (3DGS) often depends on effective point primitive management. The underlying Adaptive Density Control (ADC) process addresses this issue by automating densification and pruning. Yet, the vanilla 3DGS densification strategy shows key shortcomings. To address this issue, in this paper we introduce a novel density control method, which exploits the volumes of inertia associated to each Gaussian function to guide the refinement process. Furthermore, we study the effect of both traditional Structure from Motion (SfM) and Deep Image Matching (DIM) methods for point cloud initialization. Extensive experimental evaluations on the Mip-NeRF 360 dataset demonstrate that our approach surpasses 3DGS in reconstruction quality, delivering encouraging performance across diverse scenes.

AB - Achieving high-quality novel view synthesis in 3D Gaussian Splatting (3DGS) often depends on effective point primitive management. The underlying Adaptive Density Control (ADC) process addresses this issue by automating densification and pruning. Yet, the vanilla 3DGS densification strategy shows key shortcomings. To address this issue, in this paper we introduce a novel density control method, which exploits the volumes of inertia associated to each Gaussian function to guide the refinement process. Furthermore, we study the effect of both traditional Structure from Motion (SfM) and Deep Image Matching (DIM) methods for point cloud initialization. Extensive experimental evaluations on the Mip-NeRF 360 dataset demonstrate that our approach surpasses 3DGS in reconstruction quality, delivering encouraging performance across diverse scenes.

KW - Gaussian splatting

KW - novel view synthesis

KW - real-time rendering

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DO - 10.24132/CSRN.2025-6

M3 - Conference article

AN - SCOPUS:105015094157

SN - 2464-4617

VL - 3501

SP - 55

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JO - Computer Science Research Notes

JF - Computer Science Research Notes

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Y2 - 26 May 2025 through 29 May 2025

ER -

Refining Gaussian Splatting: A Volumetric Densification Approach

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