Inexact Generalized Golub-Kahan Methods for Large-Scale Inverse Problems Restricted; Files & ToC
Bu, Yutong (Spring 2025)
Abstract
Solving large-scale Bayesian inverse problems presents significant challenges, particularly when key components, such as the forward operator or prior covariance matrix, are not known exactly. In image processing tasks, for instance, unknown defects in the forward process may result in varying degrees of inexactness in the forward model, complicating the reconstruction process. Moreover, challenges also arise from modeling the prior. Gaussian priors are commonly used, but the prior covariance matrix can be difficult to work with, as its square root or inverse could be computationally infeasible when the covariance kernel is defined on irregular grids, or it might be accessible only through matrix-vector products. Furthermore, the optimal parameter values that define the covariance matrix are often not known a priori. This thesis introduces an efficient approach to handle these challenges by developing an inexact generalized Golub-Kahan decomposition that can incorporate varying degrees and sources of inexactness to solve large-scale generalized Tikhonov regularized problems. Further, a hybrid iterative projection scheme is developed to automatically select Tikhonov regularization parameters. Numerical experiments on simulated tomography reconstructions demonstrate the stability and effectiveness of this novel hybrid approach.
Table of Contents
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File download under embargo until 22 May 2026 | 2025-04-08 11:23:26 -0400 | File download under embargo until 22 May 2026 |
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