Research on Reconstruction of Ultrasound Diffraction Tomography Based on Compressed Sensing.

Author: Shaoyan HUA ; Mingyue DING ; Ming YUCHI
Publication Type:Journal Article
MeSH: Algorithms; Artifacts; Image Processing, Computer-Assisted; Tomography; Ultrasonics
From: Journal of Biomedical Engineering 2015;32(5):975-982
CountryChina
Language:Chinese
Abstract: Ultrasound diffraction tomography (UDT) possesses the characteristics of high resolution, sensitive to dense tissue, and has high application value in clinics. To suppress the artifact and improve the quality of reconstructed image, classical interpolation method needs to be improved by increasing the number of projections and channels, which will increase the scanning time and the complexity of the imaging system. In this study, we tried to accurately reconstruct the object from limited projection based on compressed sensing. Firstly, we illuminated the object from random angles with limited number of projections. Then we obtained spatial frequency samples through Fourier diffraction theory. Secondly, we formulated the inverse problem of UDT by exploring the sparsity of the object. Thirdly, we solved the inverse problem by conjugate gradient method to reconstruct the object. We accurately reconstructed the object using the proposed method. Not only can the proposed method save scanning time to reduce the distortion by respiratory movement, but also can reduce cost and complexity of the system. Compared to the interpolation method, our method can reduce the reconstruction error and improve the structural similarity.