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Main Authors: Alzein, Zahraa, Crocco, Marco, Caviglia, Daniele D.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2502.07453
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author Alzein, Zahraa
Crocco, Marco
Caviglia, Daniele D.
author_facet Alzein, Zahraa
Crocco, Marco
Caviglia, Daniele D.
contents Divergent wave imaging with coherent compounding allows obtaining broad field of view and higher frame rate with respect to line by line insonification. However, the spatial and contrast resolution crucially depends on the weights applied in the compound phase, whose optimization is often cumbersome and based on trial and error. This study addresses these limitations by introducing a closed-form approach that maps the transmit apodization weights used in synthetic aperture imaging into the compound mask applied to divergent wave imaging. The approach draws inspiration from a successful technique developed for plane wave imaging, leveraging synthetic aperture imaging as a reference due to its superior image quality. It works for both linear and convex geometries and arbitrary spatial arrangements of virtual sources generating divergent waves. The approach has been validated through simulated data using both linear and convex probes, demonstrating that the Full Width at Half Maximum (FWHM) in Divergent Wave Linear Array (DWLA) increased by 7.5% at 20 mm and 9% at 30 mm compared to Synthetic Aperture Linear Array (SALA). For Divergent Wave Convex Array (DWCA), the increase was 1.64% at 20 mm and 26.56% at 30 mm compared to Synthetic Aperture Convex Array (SACA), witnessing the method's effectiveness.
format Preprint
id arxiv_https___arxiv_org_abs_2502_07453
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Compound Mask for Divergent Wave Imaging in Medical Ultrasound
Alzein, Zahraa
Crocco, Marco
Caviglia, Daniele D.
Medical Physics
Divergent wave imaging with coherent compounding allows obtaining broad field of view and higher frame rate with respect to line by line insonification. However, the spatial and contrast resolution crucially depends on the weights applied in the compound phase, whose optimization is often cumbersome and based on trial and error. This study addresses these limitations by introducing a closed-form approach that maps the transmit apodization weights used in synthetic aperture imaging into the compound mask applied to divergent wave imaging. The approach draws inspiration from a successful technique developed for plane wave imaging, leveraging synthetic aperture imaging as a reference due to its superior image quality. It works for both linear and convex geometries and arbitrary spatial arrangements of virtual sources generating divergent waves. The approach has been validated through simulated data using both linear and convex probes, demonstrating that the Full Width at Half Maximum (FWHM) in Divergent Wave Linear Array (DWLA) increased by 7.5% at 20 mm and 9% at 30 mm compared to Synthetic Aperture Linear Array (SALA). For Divergent Wave Convex Array (DWCA), the increase was 1.64% at 20 mm and 26.56% at 30 mm compared to Synthetic Aperture Convex Array (SACA), witnessing the method's effectiveness.
title Compound Mask for Divergent Wave Imaging in Medical Ultrasound
topic Medical Physics
url https://arxiv.org/abs/2502.07453