Title :
Photoacoustic image reconstruction from a frequency-invariant source localization perspective
Author :
Akramus Salehin, S.M. ; Abhayapala, T.D.
Author_Institution :
Coll. of Eng. & Comput. Sci., Australian Nat. Univ. Canberra, Canberra, ACT, Australia
Abstract :
Photoacoustic imaging provides high spatial resolution images of biological tissues and is useful for molecular imaging. The exact reconstruction algorithms for photoacoustic imaging are either slow or assume a continuous sensor with infinite bandwidth. We propose a novel reconstruction method which expands the source distribution function in the Fourier-Bessel domain. The source distribution can be reconstructed from frequency samples corresponding to the Bessel zeros. Sparsity of the source distribution in the Fourier-Bessel domain makes reconstruction faster. Further, this method was extended to the discrete aperture and a condition was derived to avoid spatial aliasing. The proposed method was verified using numerical simulations.
Keywords :
Bessel functions; Fourier transforms; image reconstruction; photoacoustic effect; Bessel zeros; Fourier-Bessel domain; biological tissues; continuous sensor; discrete aperture; exact reconstruction algorithms; frequency samples; frequency-invariant source localization perspective; high spatial resolution images; molecular imaging; photoacoustic image reconstruction; photoacoustic imaging; source distribution function; Absorption; Apertures; Bandwidth; Distribution functions; Frequency estimation; Image reconstruction; Imaging;
Conference_Titel :
Signal Processing Conference, 2010 18th European
Conference_Location :
Aalborg
