Deep Momentum Multi-Marginal Schrödinger Bridge

03/03/2023
by   Tianrong Chen, et al.
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Reconstructing population dynamics using only samples from distributions at coarse time intervals is a crucial challenge. Recent data-driven approaches such as flow-based models or Schrödinger Bridge models have demonstrated appealing performance, yet the inferred sample trajectories either fail to account for the underlying stochasticity or are unnecessarily rigid. In this article, we propose Deep Momentum Multi-Marginal Schrödinger Bridge(DMSB), a novel computational framework that learns the smooth measure-valued spline for stochastic systems without violating the position marginal constraints across time. We first extend the scalable mean matching objective used in the state space SB algorithm into the phase space. We next carefully craft a multi-constraint optimization training method based on Bregman Iteration that enables effective phase space means matching training for the high-dimensional dataset. We demonstrate that the resulting training algorithm significantly outperforms baselines on both synthetic datasets and a real-world single-cell RNA sequence dataset.

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