Title :
Waveguide Microwave Imaging: Spherical Inclusion in a Dielectric Sample
Author :
Brovko, Alexander V. ; Murphy, Ethan K. ; Rother, Matthias ; Schuchmann, Heike P. ; Yakovlev, Vadim V.
Author_Institution :
Dept. of Appl. Inf. Technol., Saratov State Tech. Univ., Saratov
Abstract :
A new 3-D microwave imaging technique is proposed for the detection of a position and size of a spherical object in a dielectric sample located in a waveguide system. The reconstruction is based on a radial basis function neural network inversion, backed by finite difference time domain analysis and requires only elementary measurements of complex reflection and transmission coefficients. Functionality of the technique is illustrated by computational experiments in reconstructing the parameters of a glass sphere and an air bubble in a rectangular Teflon block. It is shown that, at 915 MHz, the spheres of not less than 15 mm diameter are reconstructed with the average errors of 0.9%-2.2%.
Keywords :
bubbles; dielectric materials; electrical engineering computing; inclusions; microwave imaging; microwave materials; neural nets; nondestructive testing; radial basis function networks; waveguides; 3D microwave imaging technique; Teflon block; air bubble; complex reflection; dielectric sample; finite difference time domain; finite difference time domain analysis; frequency 915 MHz; glass sphere; nondestructive evaluation; radial basis function neural network inversion; spherical inclusion; transmission coefficient; waveguide microwave imaging; waveguide system; Dielectric measurements; Finite difference methods; Image reconstruction; Microwave imaging; Microwave theory and techniques; Object detection; Radial basis function networks; Reflection; Time domain analysis; Time measurement; 3-D microwave imaging; Finite difference time domain (FDTD) simulation; non-destructive evaluation (NDE); radial basis function (RBF) network;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2008.2002498
