Surface Reconstruction

Surface reconstruction aims to create accurate 3D models from various input data, such as images, point clouds, or sensor readings, with a primary objective of achieving high-fidelity geometric detail and efficient processing. Recent research heavily emphasizes implicit neural representations, particularly Gaussian splatting and signed distance functions (SDFs), often combined with techniques like planar-based representations and multi-view consistency constraints to improve accuracy and scalability. These advancements are crucial for applications ranging from autonomous driving and urban planning to scientific visualization and cultural heritage preservation, enabling more realistic simulations and detailed analyses of complex 3D scenes.

Papers

November 10, 2024

Adaptive and Temporally Consistent Gaussian Surfels for Multi-view Dynamic Reconstruction
Decai Chen, Brianne Oberson, Ingo Feldmann, Oliver Schreer, Anna Hilsmann, Peter Eisert
Gaussian Splatting Multi View Adaptive Importance View Synthesis Surface Reconstruction Dynamic Reconstruction Dynamic Rigid Surface Gaussian Surfels

November 8, 2024

From Transparent to Opaque: Rethinking Neural Implicit Surfaces with $α$-NeuS
Haoran Zhang, Junkai Deng, Xuhui Chen, Fei Hou, Wencheng Wang, Hong Qin, Chen Qian, Ying He
Surface Reconstruction Transparency Index Neural Implicit Surface Neural Volume Rendering Transparent Surface

November 4, 2024

GVKF: Gaussian Voxel Kernel Functions for Highly Efficient Surface Reconstruction in Open Scenes
Gaochao Song, Chong Cheng, Hao Wang
Neural Radiance Field Gaussian Splatting 3D Gaussian Full State Reconstruction Surface Reconstruction Voxel Representation Gaussian Kernel

November 2, 2024

MultiPull: Detailing Signed Distance Functions by Pulling Multi-Level Queries at Multi-Step
Takeshi Noda, Chao Chen, Weiqi Zhang, Xinhai Liu, Yu-Shen Liu, Zhizhong Han
Surface Reconstruction Query Information Multi Step Signed Distance Function Point Cloud Reconstruction

October 29, 2024

SS3DM: Benchmarking Street-View Surface Reconstruction with a Synthetic 3D Mesh Dataset
Yubin Hu, Kairui Wen, Heng Zhou, Xiaoyang Guo, Yongjin Liu
Surface Reconstruction Large Scale Synthetic 3D Datasets Street Level 3D Measurement

October 18, 2024

Neural Signed Distance Function Inference through Splatting 3D Gaussians Pulled on Zero-Level Set
Wenyuan Zhang, Yu-Shen Liu, Zhizhong Han
3D Gaussian Surface Reconstruction Signed Distance Function Level Set Neural SDFs

October 9, 2024

Spiking GS: Towards High-Accuracy and Low-Cost Surface Reconstruction via Spiking Neuron-based Gaussian Splatting
Weixing Zhang, Zongrui Li, De Ma, Huajin Tang, Xudong Jiang, Qian Zheng, Gang Pan
Gaussian Splatting 3D Gaussian Surface Reconstruction Ground Glass Opacity Spiking Element Wise

October 6, 2024

StreetSurfGS: Scalable Urban Street Surface Reconstruction with Planar-based Gaussian Splatting
Xiao Cui, Weicai Ye, Yifan Wang, Guofeng Zhang, Wengang Zhou, Houqiang Li
Gaussian Splatting Surface Reconstruction Camera Trajectory Octree Based Road Surface Reconstruction

September 27, 2024

Space-time 2D Gaussian Splatting for Accurate Surface Reconstruction under Complex Dynamic Scenes
Shuo Wang, Binbin Huang, Ruoyu Wang, Shenghua Gao
Gaussian Splatting Surface Reconstruction Dynamic Scene Gaussian Splat Complex Dynamic Scene 3D Gaussian Splat

September 23, 2024

Matérn Kernels for Tunable Implicit Surface Reconstruction
Maximilian Weiherer, Bernhard Egger
Surface Reconstruction Implicit Surface Reconstruction Cosine Kernel Data Dependent Kernel

September 21, 2024

MOSE: Monocular Semantic Reconstruction Using NeRF-Lifted Noisy Priors
Zhenhua Du, Binbin Xu, Haoyu Zhang, Kai Huo, Shuaifeng Zhi
Semantic Segmentation Surface Reconstruction 3D Semantic Segmentation Semantic Reconstruction 3D Semantic Reconstruction Noise Prior Monocular Prior

September 10, 2024

GigaGS: Scaling up Planar-Based 3D Gaussians for Large Scene Surface Reconstruction
Junyi Chen, Weicai Ye, Yifan Wang, Danpeng Chen, Di Huang, Wanli Ouyang, Guofeng Zhang, Yu Qiao, Tong He
Gaussian Splatting 3D Gaussian Surface Reconstruction Scene Reconstruction Large Scale Scene 3D Surface Gigapixel Image

September 9, 2024

PVP-Recon: Progressive View Planning via Warping Consistency for Sparse-View Surface Reconstruction
Sheng Ye, Yuze He, Matthieu Lin, Jenny Sheng, Ruoyu Fan, Yiheng Han, Yubin Hu, Ran Yi, Yu-Hui Wen, Yong-Jin Liu, Wenping Wang
Surface Reconstruction Sparse View View Planning Warping Method Omni Recon

September 1, 2024

Curvy: A Parametric Cross-section based Surface Reconstruction
Aradhya N. Mathur, Apoorv Khattar, Ojaswa Sharma
Generative Modeling 3D Point Cloud Surface Reconstruction Object Shape Aggregated Curve Cross Section Localized Sparse Incomplete

August 29, 2024

Spurfies: Sparse Surface Reconstruction using Local Geometry Priors
Kevin Raj, Christopher Wewer, Raza Yunus, Eddy Ilg, Jan Eric Lenssen
3D Reconstruction Surface Reconstruction Sparse View Geometry Prior Deep Multi View Stereo

August 26, 2024

DynaSurfGS: Dynamic Surface Reconstruction with Planar-based Gaussian Splatting
Weiwei Cai, Weicai Ye, Peng Ye, Tong He, Tao Chen
Gaussian Splatting Surface Reconstruction Scene Reconstruction Photorealistic Rendering

August 19, 2024

NeuRodin: A Two-stage Framework for High-Fidelity Neural Surface Reconstruction
Yifan Wang, Di Huang, Weicai Ye, Guofeng Zhang, Wanli Ouyang, Tong He
Surface Reconstruction Two Stage Volume Rendering Signed Distance Function Neural Surface Reconstruction

August 16, 2024

VF-NeRF: Learning Neural Vector Fields for Indoor Scene Reconstruction
Albert Gassol Puigjaner, Edoardo Mello Rella, Erik Sandström, Ajad Chhatkuli, Luc Van Gool
Neural Radiance Field Surface Reconstruction Vector Field Implicit Surface Surface Normal Indoor Scene Reconstruction

August 13, 2024

Structure-preserving Planar Simplification for Indoor Environments
Bishwash Khanal, Sanjay Rijal, Manish Awale, Vaghawan Ojha
Point Cloud Surface Reconstruction Indoor Environment Scene Structure Sentence Simplification Scene Decomposition

August 6, 2024

MGFs: Masked Gaussian Fields for Meshing Building based on Multi-View Images
Tengfei Wang, Zongqian Zhan, Rui Xia, Linxia Ji, Xin Wang
Surface Reconstruction Multi View Image 3D Mesh Gaussian Filter 3D Building Reconstruction Gaussian Vector Field

Surface Reconstruction

Papers

Adaptive and Temporally Consistent Gaussian Surfels for Multi-view Dynamic Reconstruction

From Transparent to Opaque: Rethinking Neural Implicit Surfaces with $α$-NeuS

GVKF: Gaussian Voxel Kernel Functions for Highly Efficient Surface Reconstruction in Open Scenes

MultiPull: Detailing Signed Distance Functions by Pulling Multi-Level Queries at Multi-Step

SS3DM: Benchmarking Street-View Surface Reconstruction with a Synthetic 3D Mesh Dataset

Neural Signed Distance Function Inference through Splatting 3D Gaussians Pulled on Zero-Level Set

Spiking GS: Towards High-Accuracy and Low-Cost Surface Reconstruction via Spiking Neuron-based Gaussian Splatting

StreetSurfGS: Scalable Urban Street Surface Reconstruction with Planar-based Gaussian Splatting

Space-time 2D Gaussian Splatting for Accurate Surface Reconstruction under Complex Dynamic Scenes

Matérn Kernels for Tunable Implicit Surface Reconstruction

MOSE: Monocular Semantic Reconstruction Using NeRF-Lifted Noisy Priors

GigaGS: Scaling up Planar-Based 3D Gaussians for Large Scene Surface Reconstruction

PVP-Recon: Progressive View Planning via Warping Consistency for Sparse-View Surface Reconstruction

Curvy: A Parametric Cross-section based Surface Reconstruction

Spurfies: Sparse Surface Reconstruction using Local Geometry Priors

DynaSurfGS: Dynamic Surface Reconstruction with Planar-based Gaussian Splatting

NeuRodin: A Two-stage Framework for High-Fidelity Neural Surface Reconstruction

VF-NeRF: Learning Neural Vector Fields for Indoor Scene Reconstruction

Structure-preserving Planar Simplification for Indoor Environments

MGFs: Masked Gaussian Fields for Meshing Building based on Multi-View Images