Minimizing f-Divergences by Interpolating Velocity Fields
Song Liu, Jiahao Yu, Jack Simons, Mingxuan Yi, Mark Beaumont
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- github.com/anewgithubname/gradest2OfficialIn paperpytorch★ 1
Abstract
Many machine learning problems can be seen as approximating a target distribution using a particle distribution by minimizing their statistical discrepancy. Wasserstein Gradient Flow can move particles along a path that minimizes the f-divergence between the target and particle distributions. To move particles, we need to calculate the corresponding velocity fields derived from a density ratio function between these two distributions. Previous works estimated such density ratio functions and then differentiated the estimated ratios. These approaches may suffer from overfitting, leading to a less accurate estimate of the velocity fields. Inspired by non-parametric curve fitting, we directly estimate these velocity fields using interpolation techniques. We prove that our estimators are consistent under mild conditions. We validate their effectiveness using novel applications on domain adaptation and missing data imputation.