Title :
Radar-based tumor localization in heterogeneous breast tissue using a 3D permittivity model
Author :
Moll, Jonas ; Sarafianou, M. ; Kelly, Thomas N. ; Krozer, V. ; Craddock, I.J.
Author_Institution :
Dept. of Phys., Goethe Univ. of Frankfurt, Frankfurt am Main, Germany
Abstract :
Many imaging algorithms for microwave breast cancer detection are limited by the assumption that the heterogeneity of the female breast is approximated by an effective permittivity during the reconstruction process. Since other modalities like ultrasound or MRI are used in conjunction with microwaves in recent years, it might be possible to estimate a complex 3D permittivity model that can be used within the reconstruction process as prior information. In this paper, we present a novel beamforming procedure for radar-based microwave breast cancer detection that incorporates a 3D-permittivity model. Hence, the reconstruction can take place in time domain on a piecewise basis rather than range domain. This approach is analyzed in this paper by means of a heterogeneous numerical breast phantom using Bristol´s 31-element array configuration.
Keywords :
image reconstruction; medical image processing; microwave imaging; numerical analysis; permittivity; phantoms; radar imaging; tumours; 3D permittivity model; Bristol thirty one-element array configuration; beamforming procedure; heterogeneous breast tissue; heterogeneous numerical breast phantom; image reconstruction process; magnetic resonance imaging; radar-based microwave breast cancer detection; radar-based tumor localization; ultrasound; Antennas and propagation; Breast; Europe; Microwave imaging; Permittivity; Tumors; Breast Cancer Detection; FDTD; Microwave Imaging; Multistatic Radar System; Signal Focusing;
Conference_Titel :
Antennas and Propagation (EuCAP), 2014 8th European Conference on
Conference_Location :
The Hague
DOI :
10.1109/EuCAP.2014.6902011
