Estimation of elasticity and viscosity in heterogeneous medium using FDTD method and AHI algorithm

2016 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2016-10-01 DOI:10.1109/ATC.2016.7764794

Quang-Hai Luong, Duc-Tan Tran, Linh-Trung Nguyen, T. Huynh

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Abstract

Mechanical properties of tissues in terms of elasticity and viscosity provide us useful information which may be used in detecting tumors. These parameters can be estimated from the measurement of particle velocities of shear wave propagation which is generated by a vibrating needle at a certain frequency. For the heterogeneous medium, the finite difference time domain (FDTD) is an effective method to present the shear wave propagation. The elasticity and viscosity are then estimated using the algebraic Helmholtz inversion (AHI) algorithm. However, there is a lack of deep investigation of estimation by combining FDTD method and AHI algorithm. Thus, this paper presents a complete system which includes the principle of excitation and measurement, the FDTD to model the shear wave propagation, the AHI algorithm to estimate the elasticity and viscosity, and the investigation on frequency-dependent the elasticity and viscosity. Also, we suggest that the excitation frequency of 200 Hz will offer the best estimation of the elasticity and viscosity.

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基于时域有限差分法和AHI算法的非均质介质弹性和粘度估计

组织的弹性和黏度力学特性为肿瘤的检测提供了有用的信息。这些参数可以通过测量振动针在一定频率下产生的横波传播的粒子速度来估计。对于非均匀介质，时域有限差分(FDTD)是表征横波传播的有效方法。然后使用代数亥姆霍兹反演(AHI)算法估计弹性和粘度。然而，对于FDTD方法与AHI算法相结合的估计，目前还缺乏深入的研究。因此，本文提出了一个完整的系统，包括激励和测量原理，剪切波传播的FDTD模型，估计弹性和粘度的AHI算法，以及弹性和粘度的频率依赖性研究。此外，我们认为200 Hz的激励频率将提供最好的估计弹性和粘度。

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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2016 International Conference on Advanced Technologies for Communications (ATC)

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