Neural Ordinary Differential Equation

Neural Ordinary Differential Equations (NODEs) represent a powerful class of neural networks that model continuous-time dynamics by parameterizing the vector field of an ordinary differential equation using a neural network. Current research focuses on improving NODE efficiency and robustness through techniques like adaptive gradient estimation, incorporating constraints for improved stability and interpretability, and extending NODEs to handle stochastic processes and irregular time series data, often in conjunction with other methods such as Gaussian processes or graph neural networks. This approach has shown promise in diverse applications, including robotics, plasma physics, medical image analysis, and financial forecasting, by enabling more accurate and efficient modeling of complex systems with continuous-time evolution.

Papers

January 19, 2022

Learned Cone-Beam CT Reconstruction Using Neural Ordinary Differential Equations
Mareike Thies, Fabian Wagner, Mingxuan Gu, Lukas Folle, Lina Felsner, Andreas Maier
Neural Ordinary Differential Equation Iterative Reconstruction Cone Beam Computed Tomography Data

January 14, 2022

Taylor-Lagrange Neural Ordinary Differential Equations: Toward Fast Training and Evaluation of Neural ODEs
Franck Djeumou, Cyrus Neary, Eric Goubault, Sylvie Putot, Ufuk Topcu
Global Evaluation Neural ODE Neural Ordinary Differential Equation Faster Training Taylor Expansion Unknown Nonlinear System

January 12, 2022

Generative time series models using Neural ODE in Variational Autoencoders
M. L. Garsdal, V. Søgaard, S. M. Sørensen
Variational Autoencoder Variational Autoencoders LSTM Network Neural ODE Neural Ordinary Differential Equation Generative Time Series

January 7, 2022

Forecasting emissions through Kaya identity using Neural Ordinary Differential Equations
Pierre Browne, Aranildo Lima, Rossella Arcucci, César Quilodrán-Casas
Neural ODE Neural Ordinary Differential Equation Identity Generation Intensity Confusion Carbon Emission Carbon Intensity

January 4, 2022

Neural Piecewise-Constant Delay Differential Equations
Qunxi Zhu, Yifei Shen, Dongsheng Li, Wei Lin
Neural Ordinary Differential Equation Delay Differential Equation Continuous Depth

December 23, 2021

November 25, 2021

Characteristic Neural Ordinary Differential Equations
Xingzi Xu, Ali Hasan, Khalil Elkhalil, Jie Ding, Vahid Tarokh
Latent Variable Neural Ordinary Differential Equation Principal Curve

Neural Ordinary Differential Equation

Papers

Learned Cone-Beam CT Reconstruction Using Neural Ordinary Differential Equations

Taylor-Lagrange Neural Ordinary Differential Equations: Toward Fast Training and Evaluation of Neural ODEs

Generative time series models using Neural ODE in Variational Autoencoders

Forecasting emissions through Kaya identity using Neural Ordinary Differential Equations

Neural Piecewise-Constant Delay Differential Equations

Bi-Directional Recurrent Neural Ordinary Differential Equations for Social Media Text Classification

Latent Time Neural Ordinary Differential Equations

Improving Robustness and Uncertainty Modelling in Neural Ordinary Differential Equations

Characteristic Neural Ordinary Differential Equations