从方整扰动到希尔伯特-施密特算子的电阻抗断层扫描线性化正向图的连续性

arXiv - MATH - Analysis of PDEs Pub Date : 2024-09-16 DOI:arxiv-2409.10671

Joanna Bisch, Markus Hirvensalo, Nuutti Hyvönen

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引用次数: 0

摘要

这项工作考虑了二维电阻抗断层成像理想化前向图的弗（echet）导数，即把有边二维域上电导方程中的系数扰动映射到诺伊曼到德里赫特边界图中相应变化的线性近似的线性算子。研究证明，如果背景电导系数是常数，并且所考虑的简单连接域具有 $C^{1,\alpha}$ 边界，那么从平方可积分电导扰动空间到域边界上无主题 $L^2$ 函数的希尔伯特-施密特算子空间的弗尔谢导数是有界的。这一结果为分析无限维环境下基于线性化的电阻抗断层扫描一步重建算法提供了一个理论框架。

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Continuity of the linearized forward map of electrical impedance tomography from square-integrable perturbations to Hilbert-Schmidt operators

This work considers the Fr\'echet derivative of the idealized forward map of two-dimensional electrical impedance tomography, i.e., the linear operator that maps a perturbation of the coefficient in the conductivity equation over a bounded two-dimensional domain to the linear approximation of the corresponding change in the Neumann-to-Dirichlet boundary map. It is proved that the Fr\'echet derivative is bounded from the space of square-integrable conductivity perturbations to the space of Hilbert--Schmidt operators on the mean-free $L^2$ functions on the domain boundary, if the background conductivity coefficient is constant and the considered simply-connected domain has a $C^{1,\alpha}$ boundary. This result provides a theoretical framework for analyzing linearization-based one-step reconstruction algorithms of electrical impedance tomography in an infinite-dimensional setting.

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arXiv - MATH - Analysis of PDEs

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