Equivariant Neural Simulators for Stochastic Spatiotemporal Dynamics

Jan-19-2025, 09:32:08 GMT–Neural Information Processing Systems

Neural networks are emerging as a tool for scalable data-driven simulation of high-dimensional dynamical systems, especially in settings where numerical methods are infeasible or computationally expensive. Notably, it has been shown that incorporating domain symmetries in deterministic neural simulators can substantially improve their accuracy, sample efficiency, and parameter efficiency. However, to incorporate symmetries in probabilistic neural simulators that can simulate stochastic phenomena, we need a model that produces equivariant distributions over trajectories, rather than equivariant function approximations. In this paper, we propose Equivariant Probabilistic Neural Simulation (EPNS), a framework for autoregressive probabilistic modeling of equivariant distributions over system evolutions. We use EPNS to design models for a stochastic n-body system and stochastic cellular dynamics.

efficiency, equivariant neural simulator, stochastic spatiotemporal dynamic, (4 more...)

Neural Information Processing Systems

Jan-19-2025, 09:32:08 GMT

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Genre:
- Research Report (0.43)

Technology:
- Information Technology > Artificial Intelligence
  - Representation & Reasoning > Uncertainty (0.64)
  - Machine Learning (0.49)