Title :
Reconstruction in diffraction ultrasound tomography using nonuniform FFT
Author :
Bronstein, Michael M. ; Bronstein, Alexander M. ; Zibulevsky, Michael ; Azhari, Haim
Author_Institution :
Dept. of Electr. Eng., Technion-Israel Inst. of Technol., Haifa, Israel
Abstract :
We show an iterative reconstruction framework for diffraction ultrasound tomography. The use of broad-band illumination allows significant reduction of the number of projections compared to straight ray tomography. The proposed algorithm makes use of forward nonuniform fast Fourier transform (NUFFT) for iterative Fourier inversion. Incorporation of total variation regularization allows the reduction of noise and Gibbs phenomena while preserving the edges. The complexity of the NUFFT-based reconstruction is comparable to the frequency-domain interpolation (gridding) algorithm, whereas the reconstruction accuracy (in sense of the L2 and the L∞ norm) is better.
Keywords :
acoustic tomography; biomedical ultrasonics; image reconstruction; iterative methods; medical image processing; noise; optimisation; ultrasonic diffraction; Gibbs phenomena; acoustic imaging; edges preservation; forward nonuniform fast Fourier transform; frequency-domain interpolation algorithm; iterative Fourier inversion; medical diagnostic imaging; nonuniform FFT; reconstruction accuracy; reconstruction in diffraction ultrasound tomography; straight ray tomography; total variation regularization; Acoustic diffraction; Acoustic scattering; Fast Fourier transforms; Frequency; Image reconstruction; Integral equations; Interpolation; Iterative algorithms; Tomography; Ultrasonic imaging; Algorithms; Computer Simulation; Fourier Analysis; Image Enhancement; Phantoms, Imaging; Refractometry; Reproducibility of Results; Scattering, Radiation; Sensitivity and Specificity; Signal Processing, Computer-Assisted; Ultrasonography;
Journal_Title :
Medical Imaging, IEEE Transactions on
DOI :
10.1109/TMI.2002.806423
