Bayesian Uncertainty Quantification for Low-Rank Matrix Completion

IF 4.9 2区数学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Bayesian Analysis Pub Date : 2021-01-05 DOI:10.1214/22-ba1317

H. Yuchi, Simon Mak, Yao Xie

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引用次数: 5

Abstract

. We consider the problem of uncertainty quantiﬁcation for an unknown low-rank matrix X , given a partial and noisy observation of its entries. This quantiﬁcation of uncertainty is essential for many real-world problems, including image processing, satellite imaging, and seismology, providing a principled framework for validating scientiﬁc conclusions and guiding decision-making. However, existing literature has mainly focused on the completion (i.e., point estimation) of the matrix X , with little work on investigating its uncertainty. To this end, we propose in this work a new Bayesian modeling framework, called BayeSMG, which parametrizes the unknown X via its underlying row and column subspaces. This Bayesian subspace parametrization enables eﬃcient posterior inference on matrix subspaces, which represents interpretable phenomena in many applications. This can then be leveraged for improved matrix recovery. We demonstrate the eﬀective-ness of BayeSMG over existing Bayesian matrix recovery methods in numerical experiments, image inpainting, and a seismic sensor network application. This shows the proposed method can indeed provide better uncertainty quantiﬁcation of X via a fully-Bayesian model speciﬁcation on matrix subspaces.

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低秩矩阵补全的贝叶斯不确定性量化

.我们考虑未知低秩矩阵X的不确定性量化问题，给定其条目的部分和噪声观测。这种不确定性的量化对于许多现实世界的问题至关重要，包括图像处理、卫星成像和地震学，为验证科学结论和指导决策提供了原则性框架。然而，现有文献主要关注矩阵X的完成（即点估计），很少研究其不确定性。为此，我们在这项工作中提出了一种新的贝叶斯建模框架，称为BayeSMG，它通过其底层的行和列子空间对未知X进行参数化。这种贝叶斯子空间参数化能够在矩阵子空间上进行有效的后验推理，这在许多应用中代表了可解释的现象。然后可以利用这一点来改进矩阵恢复。我们在数值实验、图像修复和地震传感器网络应用中证明了BayeSMG相对于现有贝叶斯矩阵恢复方法的有效性。这表明，所提出的方法确实可以通过矩阵子空间上的完全贝叶斯模型指定来提供更好的X的不确定性量化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bayesian Analysis 数学-数学跨学科应用

CiteScore

6.50

自引率

13.60%

发文量

审稿时长

>12 weeks

期刊介绍： Bayesian Analysis is an electronic journal of the International Society for Bayesian Analysis. It seeks to publish a wide range of articles that demonstrate or discuss Bayesian methods in some theoretical or applied context. The journal welcomes submissions involving presentation of new computational and statistical methods; critical reviews and discussions of existing approaches; historical perspectives; description of important scientific or policy application areas; case studies; and methods for experimental design, data collection, data sharing, or data mining. Evaluation of submissions is based on importance of content and effectiveness of communication. Discussion papers are typically chosen by the Editor in Chief, or suggested by an Editor, among the regular submissions. In addition, the Journal encourages individual authors to submit manuscripts for consideration as discussion papers.