期刊
INVERSE PROBLEMS
卷 33, 期 6, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/1361-6420/aa6cbd
关键词
random projections; stochastic programming; large-scale inverse problems; model reduction; Johnson-Lindenstrauss lemma; big data; large deviation theory
资金
- FCMG
- Department of Energy [DE-SC0010518, DE-SC0011118]
- U.S. Department of Energy (DOE) [DE-SC0011118, DE-SC0010518] Funding Source: U.S. Department of Energy (DOE)
A randomized misfit approach is presented for the efficient solution of large-scale PDE-constrained inverse problems with high-dimensional data. The purpose of this paper is to offer a theory-based framework for random projections in this inverse problem setting. The stochastic approximation to the misfit is analyzed using random projection theory. By expanding beyond mean estimator convergence, a practical characterization of randomized misfit convergence can be achieved. The theoretical results developed hold with any valid random projection in the literature. The class of feasible distributions is broad yet simple to characterize compared to previous stochastic misfit methods. This class includes very sparse random projections which provide additional computational benefit. A different proof for a variant of the Johnson-Lindenstrauss lemma is also provided. This leads to a different intuition for the O( epsilon-(2)) factor in bounds for Johnson- Lindenstrauss results. The main contribution of this paper is a theoretical result showing the method guarantees a valid solution for small reduced misfit dimensions. The interplay between Johnson- Lindenstrauss theory and Morozov's discrepancy principle is shown to be essential to the result. The computational cost savings for large- scale PDE- constrained problems with high- dimensional data is discussed. Numerical verification of the developed theory is presented for model problems of estimating a distributed parameter in an elliptic partial differential equation. Results with different random projections are presented to demonstrate the viability and accuracy of the proposed approach.
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