Starting from the iterative multi-scaling approach previously studied for monochromatic illuminations, two multi-resolution strategies for dealing with multi-frequency inverse scattering experiments have been developed. The first procedure is based on the integration of the iterative multi-scaling algorithm into a frequency-hopping reconstruction scheme, while in the second one the multi-frequency data are simultaneously processed exploiting a multi-resolution expansion of the problem unknowns. The numerical and the experimental analysis presented in this contribution concern with a preliminary assessment of the reconstruction effectiveness of the proposed approaches in comparison with a monochromatic multi-step process
An Iterative Procedure for Combining the Advantages of a Multi-frequency and Multi-resolution Inversion Algorithm
Franceschini, Davide;Donelli, Massimo;Massa, Andrea
2006-01-01
Abstract
Starting from the iterative multi-scaling approach previously studied for monochromatic illuminations, two multi-resolution strategies for dealing with multi-frequency inverse scattering experiments have been developed. The first procedure is based on the integration of the iterative multi-scaling algorithm into a frequency-hopping reconstruction scheme, while in the second one the multi-frequency data are simultaneously processed exploiting a multi-resolution expansion of the problem unknowns. The numerical and the experimental analysis presented in this contribution concern with a preliminary assessment of the reconstruction effectiveness of the proposed approaches in comparison with a monochromatic multi-step processI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
