Infinite-dimensional optimization and Bayesian nonparametric learning of stochastic differential equations

J. Mach. Learn. Res. Pub Date : 2022-05-30 DOI:10.48550/arXiv.2205.15368
A. Ganguly, Riten Mitra, Jin Zhou
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Abstract

The paper has two major themes. The first part of the paper establishes certain general results for infinite-dimensional optimization problems on Hilbert spaces. These results cover the classical representer theorem and many of its variants as special cases and offer a wider scope of applications. The second part of the paper then develops a systematic approach for learning the drift function of a stochastic differential equation by integrating the results of the first part with Bayesian hierarchical framework. Importantly, our Baysian approach incorporates low-cost sparse learning through proper use of shrinkage priors while allowing proper quantification of uncertainty through posterior distributions. Several examples at the end illustrate the accuracy of our learning scheme.
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随机微分方程的无限维优化与贝叶斯非参数学习
这篇论文有两个主要主题。本文第一部分建立了Hilbert空间上无限维优化问题的若干一般结果。这些结果涵盖了经典的表示定理和它的许多变体作为特殊情况,并提供了更广泛的应用范围。然后,论文的第二部分通过将第一部分的结果与贝叶斯层次框架相结合,开发了一种系统的方法来学习随机微分方程的漂移函数。重要的是,我们的贝叶斯方法通过适当使用收缩先验结合了低成本稀疏学习,同时允许通过后验分布适当量化不确定性。最后的几个例子说明了我们的学习方案的准确性。
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J. Mach. Learn. Res.
J. Mach. Learn. Res.
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