Reconstruction of dielectric and velocity profiles in pipelines through an electromagnetic inverse scattering technique

2013 IEEE International Conference on Imaging Systems and Techniques (IST) Pub Date : 2013-10-01 DOI:10.1109/IST.2013.6729668

M. Pastorino, M. Raffetto, A. Randazzo

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引用次数: 3

Abstract

An electromagnetic method is proposed for the retrieval of dielectric parameters and velocity profiles inside pipelines. It is based on the solution of an inverse scattering problem for cylindrical configurations. An axially moving multilayer elliptic cylinder is assumed. Relativistic velocities can be considered, too. The measurement of the field vectors is assumed to be performed around the cylinder in a given observation domain. The related inverse problem is formulated through series expansions in the spatial domain in which the dielectric properties and velocities of the various layers are the problem unknowns. The resulting equations are discretized and the obtained ill-posed algebraic system is recast as an optimization problem and solved by using the Artificial Bee Colony method, which is a stochastic optimization method. The paper includes an outline of the direct scattering formulation for the multilayer elliptic cylinder and a detailed description of the considered inverse problem. Several numerical results are reported in order to preliminary assess the capabilities and limitations of the proposed approach.

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利用电磁逆散射技术重建管道介质和速度分布

提出了一种用于管道内介质参数和速度分布反演的电磁法。它是基于圆柱结构的逆散射问题的解。假设一个轴向运动的多层椭圆圆柱。相对论速度也可以考虑。假定在给定的观测域中，围绕圆柱体进行场矢量的测量。相关的反问题是通过在空间域中的级数展开来表述的，其中各层的介电性质和速度是问题的未知数。将得到的方程组离散化，将得到的不适定代数系统转化为一个优化问题，并采用随机优化方法——人工蜂群法求解。本文概述了多层椭圆柱体的直接散射公式，并详细描述了所考虑的反问题。为了初步评估所提出的方法的能力和局限性，报告了几个数值结果。

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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2013 IEEE International Conference on Imaging Systems and Techniques (IST)

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