Sources of Uncertainty in 3D Scene Reconstruction

Marcus Klasson; Riccardo Mereu; Juho Kannala; Arno Solin

Sources of Uncertainty in 3D Scene Reconstruction

Marcus Klasson, Riccardo Mereu, Juho Kannala, Arno Solin

University of Oulu

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

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Abstract

The process of 3D scene reconstruction can be affected by numerous uncertainty sources in real-world scenes. While Neural Radiance Fields (NeRFs) and 3D Gaussian Splatting (GS) achieve high-fidelity rendering, they lack built-in mechanisms to directly address or quantify uncertainties arising from the presence of noise, occlusions, confounding outliers, and imprecise camera pose inputs. In this paper, we introduce a taxonomy that categorizes different sources of uncertainty inherent in these methods. Moreover, we extend NeRF- and GS-based methods with uncertainty estimation techniques, including learning uncertainty outputs and ensembles, and perform an empirical study to assess their ability to capture the sensitivity of the reconstruction. Our study highlights the need for addressing various uncertainty aspects when designing NeRF/GS-based methods for uncertainty-aware 3D reconstruction.

Original language	English
Title of host publication	Computer Vision - ECCV 2024 Workshops
Publisher	Springer
Publication status	Accepted/In press - 2024
MoE publication type	A4 Conference publication
Event	European Conference on Computer Vision - Milano, Italy Duration: 29 Sept 2024 → 4 Oct 2024 Conference number: 18

Conference

Conference	European Conference on Computer Vision
Abbreviated title	ECCV
Country/Territory	Italy
City	Milano
Period	29/09/2024 → 04/10/2024

Keywords

uncertainty estimation
Neural radiance field
gaussian splatting

Access to Document

uncertainty-nerf-gsAccepted author manuscript, 8.32 MB

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Solin Arno /AoF Fellow Salary: Probabilistic principles for latent space exploration in deep learning
Solin, A. (Principal investigator)
01/09/2021 → 31/08/2026
Project: Academy of Finland: Other research funding
-: Finnish Center for Artificial Intelligence
Kaski, S. (Principal investigator)
01/01/2019 → 31/12/2022
Project: Academy of Finland: Other research funding

Science-IT
Hakala, M. (Manager)
School of Science
Facility/equipment: Facility

Cite this

@inproceedings{6ae97dfc85394b5b9f82627e3e603313,

title = "Sources of Uncertainty in 3D Scene Reconstruction",

abstract = "The process of 3D scene reconstruction can be affected by numerous uncertainty sources in real-world scenes. While Neural Radiance Fields (NeRFs) and 3D Gaussian Splatting (GS) achieve high-fidelity rendering, they lack built-in mechanisms to directly address or quantify uncertainties arising from the presence of noise, occlusions, confounding outliers, and imprecise camera pose inputs. In this paper, we introduce a taxonomy that categorizes different sources of uncertainty inherent in these methods. Moreover, we extend NeRF- and GS-based methods with uncertainty estimation techniques, including learning uncertainty outputs and ensembles, and perform an empirical study to assess their ability to capture the sensitivity of the reconstruction. Our study highlights the need for addressing various uncertainty aspects when designing NeRF/GS-based methods for uncertainty-aware 3D reconstruction.",

keywords = "uncertainty estimation, Neural radiance field, gaussian splatting",

author = "Marcus Klasson and Riccardo Mereu and Juho Kannala and Arno Solin",

year = "2024",

language = "English",

booktitle = "Computer Vision - ECCV 2024 Workshops",

publisher = "Springer",

address = "Germany",

note = "European Conference on Computer Vision , ECCV ; Conference date: 29-09-2024 Through 04-10-2024",

}

TY - GEN

T1 - Sources of Uncertainty in 3D Scene Reconstruction

AU - Klasson, Marcus

AU - Mereu, Riccardo

AU - Kannala, Juho

AU - Solin, Arno

N1 - Conference code: 18

PY - 2024

Y1 - 2024

N2 - The process of 3D scene reconstruction can be affected by numerous uncertainty sources in real-world scenes. While Neural Radiance Fields (NeRFs) and 3D Gaussian Splatting (GS) achieve high-fidelity rendering, they lack built-in mechanisms to directly address or quantify uncertainties arising from the presence of noise, occlusions, confounding outliers, and imprecise camera pose inputs. In this paper, we introduce a taxonomy that categorizes different sources of uncertainty inherent in these methods. Moreover, we extend NeRF- and GS-based methods with uncertainty estimation techniques, including learning uncertainty outputs and ensembles, and perform an empirical study to assess their ability to capture the sensitivity of the reconstruction. Our study highlights the need for addressing various uncertainty aspects when designing NeRF/GS-based methods for uncertainty-aware 3D reconstruction.

AB - The process of 3D scene reconstruction can be affected by numerous uncertainty sources in real-world scenes. While Neural Radiance Fields (NeRFs) and 3D Gaussian Splatting (GS) achieve high-fidelity rendering, they lack built-in mechanisms to directly address or quantify uncertainties arising from the presence of noise, occlusions, confounding outliers, and imprecise camera pose inputs. In this paper, we introduce a taxonomy that categorizes different sources of uncertainty inherent in these methods. Moreover, we extend NeRF- and GS-based methods with uncertainty estimation techniques, including learning uncertainty outputs and ensembles, and perform an empirical study to assess their ability to capture the sensitivity of the reconstruction. Our study highlights the need for addressing various uncertainty aspects when designing NeRF/GS-based methods for uncertainty-aware 3D reconstruction.

KW - uncertainty estimation

KW - Neural radiance field

KW - gaussian splatting

M3 - Conference article in proceedings

BT - Computer Vision - ECCV 2024 Workshops

PB - Springer

T2 - European Conference on Computer Vision

Y2 - 29 September 2024 through 4 October 2024

ER -

Sources of Uncertainty in 3D Scene Reconstruction

Abstract

Conference

Keywords

Access to Document

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Projects

Solin Arno /AoF Fellow Salary: Probabilistic principles for latent space exploration in deep learning

-: Finnish Center for Artificial Intelligence

Equipment

Science-IT

Cite this