Differentiable Particle Filtering via Entropy-Regularized Optimal Transport
Corenflos, Adrien, Thornton, James, Doucet, Arnaud, Deligiannidis, George
Particle Filtering (PF) methods are an established class of procedures for performing inference in non-linear state-space models. Resampling is a key ingredient of PF, necessary to obtain low variance likelihood and states estimates. However, traditional resampling methods result in PF-based loss functions being non-differentiable with respect to model and PF parameters. In a variational inference context, resampling also yields high variance gradient estimates of the PF-based evidence lower bound. By leveraging optimal transport ideas, we introduce a principled differentiable particle filter and provide convergence results. We demonstrate this novel method on a variety of applications.
Feb-15-2021
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- North America
- Canada > British Columbia (0.04)
- United States > Massachusetts
- Middlesex County > Belmont (0.04)
- Europe > United Kingdom
- England > Oxfordshire > Oxford (0.04)
- North America
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- Research Report (1.00)
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