Deep Bayesian Filter for Bayes-faithful Data Assimilation

arXiv - PHYS - Data Analysis, Statistics and Probability Pub Date : 2024-05-29 DOI:arxiv-2405.18674
Yuta Tarumi, Keisuke Fukuda, Shin-ichi Maeda
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Abstract

State estimation for nonlinear state space models is a challenging task. Existing assimilation methodologies predominantly assume Gaussian posteriors on physical space, where true posteriors become inevitably non-Gaussian. We propose Deep Bayesian Filtering (DBF) for data assimilation on nonlinear state space models (SSMs). DBF constructs new latent variables $h_t$ on a new latent (``fancy'') space and assimilates observations $o_t$. By (i) constraining the state transition on fancy space to be linear and (ii) learning a Gaussian inverse observation operator $q(h_t|o_t)$, posteriors always remain Gaussian for DBF. Quite distinctively, the structured design of posteriors provides an analytic formula for the recursive computation of posteriors without accumulating Monte-Carlo sampling errors over time steps. DBF seeks the Gaussian inverse observation operators $q(h_t|o_t)$ and other latent SSM parameters (e.g., dynamics matrix) by maximizing the evidence lower bound. Experiments show that DBF outperforms model-based approaches and latent assimilation methods in various tasks and conditions.
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贝叶斯忠实数据同化的深度贝叶斯过滤器
非线性状态空间模型的状态估计是一项具有挑战性的任务。现有的同化方法主要假定物理空间的后验为高斯,而真实的后验必然是非高斯的。我们提出了用于非线性状态空间模型(SSM)数据同化的深度贝叶斯滤波(DBF)方法。DBF 在一个新的潜在("幻想")空间上构建新的潜在变量 $h_t$,并同化观测值 $_t$。通过(i)约束花式空间上的状态转换为线性,以及(ii)学习高斯逆观测算子$q(h_t|_t)$,DBF的后验总是保持高斯。与众不同的是,后验的结构化设计为后验的递归计算提供了一个解析公式,而无需在时间步长内累积蒙特卡罗采样误差。DBF 通过最大化证据下限来寻求高斯逆观测算子 $q(h_t|o_t)$ 和其他潜在 SSM 参数(如动力学矩阵)。
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arXiv - PHYS - Data Analysis, Statistics and Probability
arXiv - PHYS - Data Analysis, Statistics and Probability
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