DocumentCode
1031571
Title
The effect of frequency dependent scattering and attenuation on the estimation of blood velocity using ultrasound
Author
Ferrara, Katherine W. ; Algazi, V. Ralph ; Liu, Jianxin
Author_Institution
Center for Image Process. & Integrated Comput., California Univ., Davis, CA, USA
Volume
39
Issue
6
fYear
1992
Firstpage
754
Lastpage
767
Abstract
A comprehensive theoretical performance comparison of the wideband maximum-likelihood (WMLE) and cross-correlation strategies, previously proposed and evaluated for the estimation of blood velocity using ultrasound is presented. It is based on evaluation of the bias, local and global accuracy, and signal-to-noise ratio (SNR) performance. The results show that the intervening medium does not bias either wideband estimation, due to the effect of tracking the scattering target. The presence of intervening tissue actually improves the global accuracy of both wideband estimators, without a significant change in the local accuracy of either wideband estimator. After the transmission of P pulses, a comparison of the performance of the two strategies shows that the cross-correlation estimator requires P/sup 2/ correlations to achieve performance similar to that of the WMLE with P operations. In addition, the WMLE can increase the effective SNR in comparison with cross correlation.<>
Keywords
biomedical measurement; biomedical ultrasonics; flow measurement; haemodynamics; ultrasonic velocity measurement; SNR; WMLE; blood velocity measurement; cross-correlation estimator; cross-correlation strategies; frequency dependent scattering; global accuracy; intervening tissue; signal-to-noise ratio; theoretical performance comparison; ultrasonic velocimeter; wideband estimation; wideband estimators; wideband maximum likelihood estimator; Acoustic beams; Acoustic scattering; Attenuation; Blood; Frequency dependence; Frequency estimation; Maximum likelihood estimation; Narrowband; Ultra wideband technology; Ultrasonic imaging;
fLanguage
English
Journal_Title
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
Publisher
ieee
ISSN
0885-3010
Type
jour
DOI
10.1109/58.165561
Filename
165561
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