P2B-10 Second-Harmonic Aberration Correction

2007 IEEE Ultrasonics Symposium Proceedings Pub Date : 2007-12-26 DOI:10.1109/ULTSYM.2007.387

H. Kaupang, T. Varslot, S. Måsøy

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引用次数: 1

Abstract

A simulation study is performed to present results concerning 3D aberration correction for harmonic imaging. Two different correction schemes (a pure time-delay correction and a time-delay and amplitude correction) are employed along with estimation based on either the received first- or second-harmonic frequency. An aberrating body wall is implemented as a 20 mm delay-screen body wall using eight screens, and is tuned to match human abdominal wall characteristics. The transmit pressure of the first harmonic is set to not succeed a mechanical index of 1.1 for the uncorrected case and a pure time-delay correction. Using a time-delay and amplitude correction, the total acoustic energy transmitted is equal to that of the uncorrected case. The total amount of generated second-harmonic energy increases with approximately 1 dB for a pure time-delay correction and about 2 dB for a time-delay and amplitude correction, both estimated at the received first-harmonic frequency. The general side-lobe level of the first- and second-harmonic focal point beam profile averaged over circles around the transducer axis is lowered with 2-10 dB for both correction schemes relative to the uncorrected case.

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P2B-10二次谐波像差校正

对谐波成像的三维像差校正进行了仿真研究。采用两种不同的校正方案(纯时延校正和时延和幅度校正)以及基于接收到的一谐波或二谐波频率的估计。畸变体壁被实现为一个20毫米的延迟屏幕体壁，使用8个屏幕，并调整到符合人体腹壁特征。对于未校正的情况和纯延时校正，将第一次谐波的传输压力设置为不继承1.1的机械指标。通过时间延迟和振幅校正，传输的总声波能量等于未校正的情况。在接收到的一次谐波频率估计下，纯时延校正产生的二次谐波能量总量增加约1 dB，延时和幅度校正产生的二次谐波能量总量增加约2 dB。相对于未校正的情况，两种校正方案的一谐波和二次谐波焦点光束轮廓的一般旁瓣电平在围绕换能器轴的圆上平均降低了2-10 dB。

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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2007 IEEE Ultrasonics Symposium Proceedings

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