A Review of Ultrasound Imaging Methods and Techniques to Enhance Their Frame Rate

A Review of Ultrasound Imaging Methods and Techniques to Enhance Their Frame Rate

Increasing the frame rate of ultrasound imaging while keeping image quality is important for following fast movements, especially the heart. There are different modalities for B-mode image recording, including line-by-line scanning with linear, phased, convex array, synthetic aperture imaging (STA),...

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Bibliographic Details
Main Authors: Seyyedeh Ensiyeh Hashemi, Hamid Behnam
Format: Article
Language:English
Published: Iran University of Science and Technology 2025-08-01
Series:Iranian Journal of Electrical and Electronic Engineering
Subjects:
ultrasound
conventional imaging
plane wave imaging
neural network
frame rate
beamforming.
Online Access:http://ijeee.iust.ac.ir/article-1-3632-en.pdf
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Summary:Increasing the frame rate of ultrasound imaging while keeping image quality is important for following fast movements, especially the heart. There are different modalities for B-mode image recording, including line-by-line scanning with linear, phased, convex array, synthetic aperture imaging (STA), plane waves (PWI), then the combination of plane waves (CPWI), and so on. Researchers have tried to increase the frame rate in each case using different methods. Three approaches for this aim are data acquisition, post-processing, and beamforming. This article reviews these approaches and their solutions for compensating image quality reduction. Ultrafast ultrasound imaging, which provides exceptional temporal resolution (high frame rate), is promising in diagnosing heart diseases due to its ability to capture rapid heart movements. It can record images faster than conventional imaging, usually exceeding 1000 frames per second. This can be achieved through plane wave imaging (PWI). However, high frame rate data acquisition can lead to a decrease in image quality. Transmitting at different angles and then combining plane wave imaging is a popular method to enhance PWI quality but reduces the frame rate by the number of angles. As a result, researchers have aimed to increase the temporal resolution while compensating for the loss of quality.
ISSN:1735-2827
2383-3890

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