Abstract
Contrast degradation is a critical problem in ultrasound plane wave imaging (PWI) resulting from signals leakage from the sidelobes. An ideal sidelobe reduction method may enhance the contrast without remarkably increasing computational load. To this end, we introduce a new singular value decomposition (SVD) sidelobe reduction beamformer for coherent plane wave compounding (CPWC) based on a previous work. The SVD takes advantage of the benefits of the different features of the mainlobe and sibelobe in terms of spatio-angular coherence and removes the sidelobes before the final coherent summation. This SVD-based method provides a three-dimensional approach (2D in the space and 1D in the angle) while the computation load is kept satisfactory by a dimension-reduced operation before the SVD. To directly observe the sidelobe level, we demonstrate the performance of our SVD method with a point spread function (PSF) simulation. Compared to CPWC, our method shows a 6.2 dB reduction in the peak sidelobe level (PSL). We also applied our method to the anechoic cyst inside the speckle for the imaging contrast. Both in the simulation and phantom studies, our method enhances the contrast-to-noise ratio (CNR) by more than 10%. Therefore, this new beamformer can be an efficient way to suppress sidelobes in PWI.
Highlights
The emergence of ultrafast ultrasound has been made possible by the development of new imaging modalities [1,2,3]
We will show the results of different beamforming schemes for the coherent plane wave dataset
The performance of the proposed beamformer beamformer is significantly better in terms of both contrast ratio (CR) and contrast-to-noise ratio (CNR) than the coherent plane wave compounding (CPWC) performance
Summary
The emergence of ultrafast ultrasound has been made possible by the development of new imaging modalities [1,2,3]. Plane wave imaging (PWI) is a promising one which has attracted great attention. In the PWI, the entire region of interest (ROI) can be scanned using the full aperture in a single shot. Plane waves enable covering a large field quickly, their imaging results have higher sidelobes compared with the conventional focused imaging. High sidelobes may lower imaging contrast [4,5] and make it difficult to detect the low scattering targets, such as small anechoic cysts. High sidelobes may decrease the imaging resolution [6]
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