Full State Reconstruction

Full state reconstruction aims to recover complete and accurate representations of systems or objects from incomplete or noisy data. Current research focuses on diverse applications, employing various techniques including neural networks (e.g., UNets, Transformers, diffusion models), implicit neural representations, and spectral graph theory, often tailored to specific data modalities (images, point clouds, time series, etc.). These advancements improve accuracy and efficiency in diverse fields, ranging from robotics and computer vision (3D object reconstruction, hand tracking) to medical imaging (CT and MRI reconstruction) and speech processing (efficient speech separation). The resulting improvements in data analysis and system modeling have significant implications for various scientific and engineering disciplines.

Papers

May 2, 2023

Representation Learning via Manifold Flattening and Reconstruction
Michael Psenka, Druv Pai, Vishal Raman, Shankar Sastry, Yi Ma
Representation Learning Full State Reconstruction Manifold Learning Statistical Manifold Neural Generation Document Flattening

April 24, 2023

On the lifting and reconstruction of nonlinear systems with multiple invariant sets
Shaowu Pan, Karthik Duraisamy
Full State Reconstruction Nonlinear Dynamic Koopman Operator Invariant Set Single Lifting Activity

April 19, 2023

Anything-3D: Towards Single-view Anything Reconstruction in the Wild
Qiuhong Shen, Xingyi Yang, Xinchao Wang
Segment Anything Model 3D Reconstruction Wild Challenge 3D Content Full State Reconstruction 3D Reconstruction Task

April 13, 2023

Single-Stage Diffusion NeRF: A Unified Approach to 3D Generation and Reconstruction
Hansheng Chen, Jiatao Gu, Anpei Chen, Wei Tian, Zhuowen Tu, Lingjie Liu, Hao Su
Neural Radiance Field Novel View Synthesis Unified Framework Image Synthesis Full State Reconstruction Sparse View 3D Generation

April 3, 2023

March 28, 2023

MeMaHand: Exploiting Mesh-Mano Interaction for Single Image Two-Hand Reconstruction
Congyi Wang, Feida Zhu, Shilei Wen
Full State Reconstruction Single Image Interaction Generation Hand Object Hand Reconstruction Hand Mesh Hand Model

March 23, 2023

MV-JAR: Masked Voxel Jigsaw and Reconstruction for LiDAR-Based Self-Supervised Pre-Training
Runsen Xu, Tai Wang, Wenwei Zhang, Runjian Chen, Jinkun Cao, Jiangmiao Pang, Dahua Lin
Full State Reconstruction 3D Detection 3D Object Detection Benchmark Jigsaw Puzzle

March 14, 2023

FingerSLAM: Closed-loop Unknown Object Localization and Reconstruction from Visuo-tactile Feedback
Jialiang Zhao, Maria Bauza, Edward H. Adelson
Full State Reconstruction Closed Loop 6 DoF Pose Estimation Model Visuo Tactile Unknown Object Detection Visuo Tactile Feedback

March 9, 2023

Reconstruction of Cardiac Cine MRI under Free-breathing using Motion-guided Deformable Alignment and Multi-resolution Fusion
Xiaoxiang Han, Qiaohong Liu, Yiman Liu, Keyan Chen, Yuanjie Lin, Weikun Zhang
Full State Reconstruction Cardiac Magnetic Resonance Cine Cardiac Magnetic Resonance Exhaled Breath Cine Magnetic Resonance Multi Resolution Fusion Deformable Alignment

March 6, 2023

DR-Label: Improving GNN Models for Catalysis Systems by Label Deconstruction and Reconstruction
Bowen Wang, Chen Liang, Jiaze Wang, Furui Liu, Shaogang Hao, Dong Li, Jianye Hao, Guangyong Chen, Xiaolong Zou, Pheng-Ann Heng
Full State Reconstruction Label Shift Catalyst Design Graph Neural Network Model

February 21, 2023

RealFusion: 360{\deg} Reconstruction of Any Object from a Single Image
Luke Melas-Kyriazi, Christian Rupprecht, Iro Laina, Andrea Vedaldi
Neural Radiance Field Arbitrary Object Full State Reconstruction Single Image Monocular 3D Reconstruction Model Conditional Image Generation Consistent Reconstruction

February 3, 2023

Physics-Informed Long Short-Term Memory for Forecasting and Reconstruction of Chaos
Elise Özalp, Georgios Margazoglou, Luca Magri
Long Short Term Memory LSTM Network Full State Reconstruction State of the Art Forecasting Kill Chaos LSTM Model

January 30, 2023

January 18, 2023

January 5, 2023

Physics-informed self-supervised deep learning reconstruction for accelerated first-pass perfusion cardiac MRI
Elena Martín-González, Ebraham Alskaf, Amedeo Chiribiri, Pablo Casaseca-de-la-Higuera, Carlos Alberola-López, Rita G Nunes, Teresa M Correia
Full State Reconstruction Cardiac Magnetic Resonance Physical Reasoning Cine Cardiac Magnetic Resonance Perfusion Parameter

December 15, 2022

Man-recon: manifold learning for reconstruction with deep autoencoder for smart seismic interpretation
Ahmad Mustafa, Ghassan AlRegib
Active Learning Full State Reconstruction Manifold Learning Omni Recon Seismic Interpretation Seismic Facies

December 8, 2022

SDFusion: Multimodal 3D Shape Completion, Reconstruction, and Generation
Yen-Chi Cheng, Hsin-Ying Lee, Sergey Tulyakov, Alexander Schwing, Liangyan Gui
Faithful Generation Full State Reconstruction 3D Asset Shape Completion Shape Generation

Full State Reconstruction

Papers

Representation Learning via Manifold Flattening and Reconstruction

On the lifting and reconstruction of nonlinear systems with multiple invariant sets

Anything-3D: Towards Single-view Anything Reconstruction in the Wild

Single-Stage Diffusion NeRF: A Unified Approach to 3D Generation and Reconstruction

Controllable Motion Synthesis and Reconstruction with Autoregressive Diffusion Models

MSS-PAE: Saving Autoencoder-based Outlier Detection from Unexpected Reconstruction

MeMaHand: Exploiting Mesh-Mano Interaction for Single Image Two-Hand Reconstruction

MV-JAR: Masked Voxel Jigsaw and Reconstruction for LiDAR-Based Self-Supervised Pre-Training

FingerSLAM: Closed-loop Unknown Object Localization and Reconstruction from Visuo-tactile Feedback

Reconstruction of Cardiac Cine MRI under Free-breathing using Motion-guided Deformable Alignment and Multi-resolution Fusion

DR-Label: Improving GNN Models for Catalysis Systems by Label Deconstruction and Reconstruction

RealFusion: 360{\deg} Reconstruction of Any Object from a Single Image

Physics-Informed Long Short-Term Memory for Forecasting and Reconstruction of Chaos

Mono-STAR: Mono-camera Scene-level Tracking and Reconstruction

AudioEar: Single-View Ear Reconstruction for Personalized Spatial Audio

OmniObject3D: Large-Vocabulary 3D Object Dataset for Realistic Perception, Reconstruction and Generation

An investigation of the reconstruction capacity of stacked convolutional autoencoders for log-mel-spectrograms

Physics-informed self-supervised deep learning reconstruction for accelerated first-pass perfusion cardiac MRI

Man-recon: manifold learning for reconstruction with deep autoencoder for smart seismic interpretation

SDFusion: Multimodal 3D Shape Completion, Reconstruction, and Generation