Doppler ultrasound velocity estimation

Surgery – Truss – Pad

Patent

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7386125, A61B 800

Patent

active

055446582

ABSTRACT:
A spatial-temporal doppler velocity estimation method expands the detectable frequency range by extending the frequency boundary at which aliasing artifacts may occur. In various embodiments the detectable frequency range is extended beyond the Nyquist limit. To do so, multiple velocity estimation functions are defined. One function is the conventional function typically bound by the Nyquist limit. For additional functions, the (n-1)-th echo is spatially shifted with respect to the n-th echo, (i.e., temporal/spatial pulse-pairs are averaged). For example, in one embodiment a shift of +.DELTA. is inserted to define one additional estimation function, while a shift of -.DELTA. is inserted to define another additional estimation function. A power function then is calculated for each velocity estimation function. The estimation function having the highest power is selected for use in deriving the doppler shift frequency of a given sample point. By selecting a one of the K+1 velocity estimation functions with the highest power, the detectable frequency range, f, becomes: -(2.sup.K /2)f.sub.s <f<(2.sup.K /2)f.sub.s, where f.sub.s is the Doppler sampling frequency.

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D. C. Liu et al, "Modified Autocorrelation Method Compared With Maximum Entropy Method and RF Cross-Correlation Method as Mean Frequency Estimator for Doppler Ultrasound;" 1991 Ultrasonics Symposium; pp. 1285-1290.
Bonnefous, O. et al.; "Time Domain Formulation of Pulse-Doppler Ultrasound and Blood Velocity Estimation by Cross Correlation;" Ultrasonic Imaging; vol. 8; pp. 73-85; 1986.

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