Image enhancement in ultrasound passive cavitation imaging using centroid and flatness of received channel data

IF 0.2 Q4 ACOUSTICS
M. Jeong, S. Kwon, M. Choi
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引用次数: 0

Abstract

Passive cavitation imaging method is used to observe the ultrasonic waves generated when a group of bubbles collapses. A problem with passive cavitation imaging is a low resolution and large side lobe levels. Since ultrasound signals generated by passive cavitation take the form of a pulse, the amplitude distribution of signals received across the receive channels varies depending on the direction of incidence. Both the centroid and flatness were calculated to determine weights at imaging points in order to discriminate between the main and side lobe signals from the signal amplitude distribution of the received channel data and to reduce the side lobe levels. The centroid quantifies how the channel data are distributed across the receive channel, and the flatness measures the variance of the channel data. We applied the centroid weight and the flatness to the passive cavitation image constructed using the delay-and-sum focusing and minimum variance beamforming methods to improve the image quality. Using computer simulation and experiment, we show that the application of weighting in delay-and-sum and minimum variance beamforming reduces side lobe levels.
利用接收通道数据的质心和平面度增强超声被动空化成像中的图像
采用被动空化成像方法,观察一组气泡崩塌时产生的超声波。被动空化成像的一个问题是低分辨率和大的旁瓣电平。由于被动空化产生的超声信号采用脉冲的形式,因此接收通道上接收到的信号的振幅分布取决于入射方向。计算质心和平坦度以确定成像点的权重,以便从接收信道数据的信号幅度分布中区分主瓣和副瓣信号,并降低副瓣电平。质心量化了信道数据在接收信道上的分布方式,平坦度测量了信道数据的方差。对采用延迟和聚焦和最小方差波束形成方法构建的被动空化图像,采用质心权重和平整度来提高图像质量。通过计算机仿真和实验,我们证明了加权在延迟和波束形成和最小方差波束形成中的应用降低了旁瓣电平。
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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来源期刊
CiteScore
0.60
自引率
50.00%
发文量
1
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