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Adaptive iterative regularization schemes for two-dimensional integral-algebraic systems. (English) Zbl 1431.65248

Summary: The main idea of this paper is to utilize the adaptive iterative schemes based on regularization techniques for moderately ill-posed problems that are obtained by a system of linear two-dimensional Volterra integral equations with a singular matrix in the leading part. These problems may arise in the modeling of certain heat conduction processes as well as in the dynamic simulation packages such as compressible flow through a plant piping network. Owing to the ill-posed nature of the first kind Volterra equation that appears in the system, we will focus on the two families of regularization algorithms, ie, the Landweber and Lavrentiev type methods, where we treat both the exact and perturbed data. Our aim is to work directly with the original Volterra equations without any kind of reduction. Two fast iterative algorithms with reasonable computational complexity are developed. Numerical experiments on a few test problems are used to illustrate the validity and efficiency of the proposed iterative methods in comparison with the classical regularization methods.

MSC:

65R30 Numerical methods for ill-posed problems for integral equations
45Q05 Inverse problems for integral equations
47A52 Linear operators and ill-posed problems, regularization
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