Title :
Born approximated inverse scattering using beam basis functions
Author :
Heilpern, Tal ; Heyman, Ehud
Author_Institution :
Sch. of Electr. Eng., Tel Aviv Univ., Tel Aviv, Israel
Abstract :
We present a novel beam-based inverse scattering algorithm within the Born approximation, utilizing data measured by arrays of point sources and receivers (transducers). In this approach, the measured point-source/receiver data is first converted into a beam-domain data where the source and the receiver arrays are described by phase-space sets of beam waves. The beam-domain data describes the scattering amplitudes “measured” by the receiver beams due to each source beam. In the new inversion approach presented here, the unknown medium is spanned using a basis of beam-waves, and the expansion coefficients are determined by multiplying the beam-domain data with pseudo inverse of the correlation matrix of the beam basis function. The scheme benefits from the sparseness of the beam-domain data and from the spatial localization of the beam spanning functions.
Keywords :
approximation theory; correlation methods; electromagnetic wave scattering; matrix inversion; receivers; ultra wideband technology; Born approximation; beam basis functions; beam spanning functions; beam waves; beam-based inverse scattering algorithm; beam-domain data sparseness; expansion coefficient determination; phase-space sets; point source arrays; point-source data; pseudoinverse correlation matrix; receiver arrays; receiver beams; receiver data; scattering amplitudes; source beam; spatial localization; Approximation methods; Arrays; Imaging; Inverse problems; Matrix converters; Receivers; Scattering;
Conference_Titel :
Electromagnetic Theory (EMTS), Proceedings of 2013 URSI International Symposium on
Conference_Location :
Hiroshima
Print_ISBN :
978-1-4673-4939-0
