eprintid: 333
rev_number: 6
eprint_status: archive
userid: 5
dir: disk0/00/00/03/33
datestamp: 2011-03-28
lastmod: 2013-07-02 11:24:01
status_changed: 2013-07-02 11:24:01
type: techreport
metadata_visibility: show
item_issues_count: 0
creators_name: Franceschini, Davide
creators_name: Donelli, Massimo
creators_name: Azaro, Renzo
creators_name: Massa, Andrea
title: Dealing with Multi-Frequency Scattering Data Through the IMSA
ispublished: pub
subjects: TU
full_text_status: public
keywords: Electromagnetic inverse , iterative multiscaling approach , microwave imaging , multifrequency data , multiresolution technique , scattering
abstract: A set of representative results are presented that are obtained with two multiresolution strategies developed for dealing with multifrequency inverse scattering experiments starting from the iterative multiscaling approach previously studied for monochromatic illuminations. The first approach is concerned with the integration of the iterative multiscaling algorithm into a frequency-hopping reconstruction scheme, while the second one allows a multiresolution simultaneous processing of multifrequency data. The numerical and the experimental analysis are aimed at assessing both the reconstruction effectiveness and the required computational costs of the two- and three-dimensional implementations of the proposed inversion schemes in comparison with the monochromatic multistep process and to the single-step optimization strategy, as well. (c) 2007 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other users, including reprinting/ republishing this material for advertising or promotional purposes, creating new collective works for resale or redistribution to servers or lists, or reuse of any copyrighted components of this work in other works.
date: 2007-08
date_type: published
institution: University of Trento
department: informaticat
refereed: TRUE
referencetext: [1] M. Benedetti, M. Donelli, G. Franceschini, M. Pastorino, and A. Massa, "Effectiveexploitation of the a priori information through a microwave imaging procedure basedon the SMW for NDE/NDT applications," IEEE Trans. Geosci. Remote Sensing , vol.43, pp. 2584-2592, Nov. 2005.
[2] P. M. Meaney, M. W. Fanning, D. Li, S. P. Poplack, and K. D. Paulsen, "A Clini-cal prototype for active microwave imaging of the breast," IEEE Trans. MicrowaveTheory Tech., vol. 48, pp. 1841-1851, Nov. 2000.
[3] D. J. Daniels, Subsurface Penetrating Radar. London, U. K.: IEE Press, 1996.
[4] O. M. Bucci and G. Franceschetti, "On the degrees of freedom of scattered fields,"IEEE Trans. Antennas Propagat., vol. 37, pp. 918-926, Jul. 1989.
[5] S. Caorsi, G. L. Gragnani, and M. Pastorino, "An approach to microwave imagingusing a multiview moment method solution for a two-dimensional infinite Cylinder,"IEEE Trans. Microwave Theory Tech., vol. 39, pp. 1062-1067, Jun. 1991.
[6] O. S. Haddadin and E. S. Ebbini, "Imaging strongly scattering media using a multiplefrequency distorted Born iterative method," IEEE Trans. Ultrason. Ferroelect. Freq.Contr., vol. 45, pp. 1485-1496, Nov. 1998.
[7] K. Belkebir, R. Kleinmann, and C. Pichot, "Microwave imaging - Location and shapereconstruction frommultifrequency data," IEEE Trans. Microwave Theory Tech., vol.45, pp. 469-475, Apr. 1997.
[8] O. M. Bucci, L. Crocco, T. Isernia, and V. Pascazio, "Inverse scattering problemswith multifrequency data: reconstruction Capabilities and solution strategies," IEEETrans. Geosci. Remote Sensing , vol. 38, pp. 1749-1756, Jul. 2000.
[9] A. G. Tijhuis, K. Belkebir, A. C. S. Litman, ans B. P. de Hon, "Theoretical and Com-putational aspects of 2-D inverse profiling," IEEE Trans. Geosci. Remote Sensing ,vol. 39, pp. 1316-1330, Jul. 2001.
[10] A. Baussard, "Inversion of multi-frequency experimental data using an adaptive mul-tiscale approach", Inverse Problems, vol. 21, pp. S15-S31, Dec. 2005.
[11] S. Caorsi, M. Donelli, D. Franceschini, and A. Massa, "A new methodology basedon an iterative multiscaling for microwave imaging," IEEE Trans. Microwave TheoryTech., vol. 51, pp. 1162-1173, Apr. 2003.
[12] S. Caorsi, M. Donelli, and A. Massa, "Detection, location, and imaging of multiplescatterers by means of the iterative multiscaling method," IEEE Trans. MicrowaveTheory Tech., vol. 52, pp. 1217-1228, Apr. 2004.
[13] E. L. Miller and A. S. Willsky, "A multiscale, statistically based inversion scheme forlinearized inverse scattering problems," IEEE Trans. Geosci. Remote Sensing , vol.34, pp. 346-357, Mar. 1996.
[14] O. M. Bucci, L. Crocco, and T. Isernia, "An adaptive wavelet-based approach for nondestructive evaluation applications," in Proc. IEEE Antennas Propagation Symp.,vol. 3, pp. 1756-1759, 2000.
[15] J. H. Richmond, "Scattering by a dielectric Cylinder of arbitrary Cross section shape,"IEEE Trans. Antennas Propagat., vol. 13, pp. 334-341, May 1965.
[16] J.-M. Ge&#27;rin, P. Sabouroux, and C. Eyraud, "Free space experimental scatteringdatabase Continuation: experimental set-up and measurement precision," InverseProblems, vol. 21, pp. S117-S130, Dec. 2005.
[17] M. Donelli, D. Franceschini, A. Massa, M. Pastorino, and A. Zanetti, "Multi-resolution iterative inversion of real inhomogeneous targets," Inverse Problems, vol.21, pp. S51-S63, Nov. 2005.
citation:   Franceschini, Davide and Donelli, Massimo and Azaro, Renzo and Massa, Andrea  (2007) Dealing with Multi-Frequency Scattering Data Through the IMSA.  [Technical Report]     
document_url: http://www.eledia.org/students-reports/333/1/DISI-11-068.R118.pdf