Neural Radiance Field

Neural Radiance Fields (NeRFs) are a powerful technique for creating realistic 3D scene representations from 2D images, aiming to reconstruct both geometry and appearance. Current research focuses on improving efficiency and robustness, exploring variations like Gaussian splatting for faster rendering and adapting NeRFs for diverse data modalities (LiDAR, infrared, ultrasound) and challenging conditions (low light, sparse views). This technology has significant implications for various fields, including autonomous driving, robotics, medical imaging, and virtual/augmented reality, by enabling high-fidelity 3D scene modeling and novel view synthesis from limited input data.

Papers

February 2, 2023

RobustNeRF: Ignoring Distractors with Robust Losses
Sara Sabour, Suhani Vora, Daniel Duckworth, Ivan Krasin, David J. Fleet, Andrea Tagliasacchi
Neural Radiance Field Robust Estimation High Quality Distractors Robust Loss View Dependent

January 27, 2023

January 26, 2023

January 25, 2023

Ultra-NeRF: Neural Radiance Fields for Ultrasound Imaging
Magdalena Wysocki, Mohammad Farid Azampour, Christine Eilers, Benjamin Busam, Mehrdad Salehi, Nassir Navab
Neural Radiance Field Neural Rendering NeRF SLAM Based Rendering Ultrasound Imaging High Fidelity Ultrasound Video Synthesis

January 22, 2023

3D Reconstruction of Non-cooperative Resident Space Objects using Instant NGP-accelerated NeRF and D-NeRF
Basilio Caruso, Trupti Mahendrakar, Van Minh Nguyen, Ryan T. White, Todd Steffen
Neural Radiance Field Orbit Servicing Space Object Space Debris Removal

January 19, 2023

RecolorNeRF: Layer Decomposed Radiance Fields for Efficient Color Editing of 3D Scenes
Bingchen Gong, Yuehao Wang, Xiaoguang Han, Qi Dou
Neural Radiance Field 3D Scene Color Correction Deep Learning Based Recoloring

January 18, 2023

Behind the Scenes: Density Fields for Single View Reconstruction
Felix Wimbauer, Nan Yang, Christian Rupprecht, Daniel Cremers
Neural Radiance Field Depth Prediction Theatre Scene Description Density Field Single View Reconstruction

January 17, 2023

A Large-Scale Outdoor Multi-modal Dataset and Benchmark for Novel View Synthesis and Implicit Scene Reconstruction
Chongshan Lu, Fukun Yin, Xin Chen, Tao Chen, Gang YU, Jiayuan Fan
New Benchmark Neural Radiance Field Large Scale Novel View Synthesis Multi Modal

January 10, 2023

January 8, 2023

Towards Open World NeRF-Based SLAM
Daniil Lisus, Connor Holmes, Steven Waslander
Neural Radiance Field Simultaneous Localization and Mapping Open World Simultaneous Localization

January 5, 2023

WIRE: Wavelet Implicit Neural Representations
Vishwanath Saragadam, Daniel LeJeune, Jasper Tan, Guha Balakrishnan, Ashok Veeraraghavan, Richard G. Baraniuk
Neural Radiance Field Activation Function Implicit Neural Representation Neural Representation Wavelet Coefficient

January 3, 2023

Class-Continuous Conditional Generative Neural Radiance Field
Jiwook Kim, Minhyeok Lee
Neural Radiance Field Image Synthesis Face Synthesis Generative Neural Radiance Field

January 1, 2023

Detachable Novel Views Synthesis of Dynamic Scenes Using Distribution-Driven Neural Radiance Fields
Boyu Zhang, Wenbo Xu, Zheng Zhu, Guan Huang
Neural Radiance Field Novel View Synthesis View Synthesis Monocular Video Dynamic Scene

December 25, 2022

PaletteNeRF: Palette-based Color Editing for NeRFs
Qiling Wu, Jianchao Tan, Kun Xu
Neural Radiance Field Color Correction Image Decomposition Color Palette

December 22, 2022

Removing Objects From Neural Radiance Fields
Silvan Weder, Guillermo Garcia-Hernando, Aron Monszpart, Marc Pollefeys, Gabriel Brostow, Michael Firman, Sara Vicente
Neural Radiance Field Novel View Synthesis Arbitrary Object RGB D Sequence Dynamic NeRF

December 21, 2022