Neural Stochastic Differential Equation

Neural Stochastic Differential Equations (Neural SDEs) are a class of machine learning models that use neural networks to parameterize the drift and diffusion terms of stochastic differential equations, enabling the modeling of complex, continuous-time stochastic processes. Current research focuses on developing efficient training methods, improving model robustness and stability, particularly for irregularly sampled or noisy data, and exploring various architectures like Langevin dynamics and Volterra equations to handle path-dependent dynamics and diverse data types. These models are proving valuable for diverse applications, including time series forecasting, generative modeling, data assimilation, and the analysis of complex systems in fields such as finance, physics, and biology, offering advantages in handling uncertainty and incorporating prior knowledge.

Papers

November 1, 2024
October 28, 2024
October 4, 2024
September 3, 2024
July 28, 2024
June 14, 2024
April 10, 2024
February 22, 2024
January 14, 2024
December 22, 2023
December 20, 2023
December 13, 2023
November 6, 2023
October 26, 2023
October 3, 2023
September 27, 2023
July 4, 2023
July 1, 2023
June 24, 2023
June 10, 2023