The Efficiency of Applying Compressed Sampling and Multi-Resolution Into Ultrasound Tomography

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY

Ingenieria Solidaria Pub Date : 2019-09-16 DOI:10.16925/2357-6014.2019.03.08

Trần Quang Huy, Van Dung Nguyen, Duc-Tan Tran

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引用次数: 2

Abstract

Introduction: This publication is the product of research developed within the research lines of the Smart Sensing, Signal Processing, and Applications (3SPA) research group throughout 2018, which supports the work of a doctor’s degree at VNU University of Engineering & Technology, Vietnam. Problem: The limitations of diagnostic ultrasound techniques using echo information has motivated the study of new imaging models in order to create additional quantitative ultrasound information in multi-model imaging devices. A promising solution is to use image sound contrast because it is capable of detecting changes in diseased tissue structures. Ultrasound tomography shows speed-of-sound changes in the propagation medium of sound waves. This technique is primarily used for imaging cancer-causing cells in womens’ breasts. The Distorted Born Iterative Method (DBIM), based on the first-order Born approximation, is an efficient diffraction tomography approach. The compressed sensing technique is utilized for DBIM to obtain the high-quality ultrasound image, although the image reconstruction process is quite long. Objective: The objective of the research is to propose an combined method for the efficient ultrasound tomography. Methodology: In this paper, we proposed an approach to enhance the imaging quality and to reduce the imaging time by applying the compressed sensing technique along with the multi-resolution technique for the DBIM. Results: The simulation results indicate that the imaging time is reduced by 33% and the imaging quality is improved by 83%. Conclusion: This project seeks to propose an improvement in ultrasound tomography. The simulated results confirmed the realibility of the propsed method. Originality: Through this research, a combined method of compressed sensing and multiple resolution are formulated for the first time in ultrasound tomography. Limitations: The lack of experiments to confirm the proposed method.

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压缩采样和多分辨率应用于超声断层成像的效率

本出版物是智能传感，信号处理和应用(3SPA)研究小组在2018年的研究范围内开发的研究成果，该研究小组支持越南VNU工程技术大学博士学位的工作。问题:利用回波信息诊断超声技术的局限性促使人们研究新的成像模型，以便在多模型成像设备中创建额外的定量超声信息。一个有希望的解决方案是使用图像声音对比，因为它能够检测病变组织结构的变化。超声波断层扫描显示声波传播介质中声速的变化。这项技术主要用于对女性乳房中的致癌细胞进行成像。基于一阶玻恩近似的畸变玻恩迭代法是一种有效的衍射层析成像方法。DBIM采用压缩感知技术获得高质量的超声图像，但图像重建过程较长。目的:提出一种高效超声成像的综合方法。方法:本文提出了一种将压缩感知技术与多分辨率技术相结合的方法来提高DBIM的成像质量，缩短成像时间。结果:仿真结果表明，成像时间缩短33%，成像质量提高83%。结论:本项目旨在提出一种改进超声断层扫描的方法。仿真结果验证了所提方法的可行性。独创性:通过本研究，首次在超声断层扫描中提出了压缩感知与多分辨率相结合的方法。局限性:缺乏实验来证实所提出的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ingenieria Solidaria ENGINEERING, MULTIDISCIPLINARY-

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