Title :
Modified autocorrelation method compared with maximum entropy method and RF cross correlation method as mean frequency estimator for Doppler ultrasound
Author :
Liu, D.C. ; Kim, J. ; Schardt, M.
Author_Institution :
Siemens Quantum Ultrasound, Inc., San Ramon, CA, USA
Abstract :
The modified autocorrelation method (MAC) incorporating two-dimensional temporal and spatial averaging for mean frequency estimation in ultrasound color/flow mapping is evaluated. The equivalence among the MA, the classic autocorrelation method (AC) and the RF cross-correlation method has been investigated. Recently, the maximum entropy method (MEM) has been applied to the ultrasound color flow imaging. The performance of the MA, AC, and the MEM methods is examined using computer simulations. Simulation results show that the MA method performs best in all of the cases especially for short and highly noisy signals. The MEM performs similarly with that of the original AC method in most cases but shows more accurate results than the AC method for short and extremely noisy signals
Keywords :
Doppler effect; acoustic imaging; biomedical ultrasonics; Doppler ultrasound; RF cross correlation method; classic autocorrelation method; computer simulations; maximum entropy method; mean frequency estimator; medical diagnostic imaging; modified autocorrelation method; short extremely noisy signals; ultrasound color/flow mapping; Attenuation; Autocorrelation; Correlation; Delay; Entropy; Equations; Frequency estimation; Identity-based encryption; Radio frequency; Sampling methods;
Conference_Titel :
Ultrasonics Symposium, 1991. Proceedings., IEEE 1991
Conference_Location :
Orlando, FL
DOI :
10.1109/ULTSYM.1991.234057
