Title :
Volumetric flow measured in a laminar jet phantom using a two-dimensional speckle tracking system
Author :
Bohs, Laurence S. ; Friemel, Barry H. ; Trahey, Greg E.
fDate :
Oct. 31 1994-Nov. 3 1994
Abstract :
A two-dimensional speckle tracking system was used to measure volumetric flow rates in a free laminar jet in vitro. The system utilized the Sum-Absolute-Difference (SAD) pattern matching algorithm to track small speckle regions between successive pulse-echo acquisitions in order to determine 2D velocities. Velocity profiles were measured across the jet diameter at a transducer angle of 90° at six flow rates from 2-12 cm/s. The profiles were then integrated, assuming a circular cross-section, to compute the volumetric flow rates. Experimental volumetric flow rates exhibited excellent agreement with actual rates (best fit line: y=1.04x-0.043, R2>0.99), with a mean error of 3.5%. Results indicate that accurate volume flow estimates can he obtained at 90°, where current uni-dimensional Doppler instruments fail, in circular free laminar jets
Keywords :
biomedical ultrasonics; blood flow measurement; jets; laminar flow; pattern matching; speckle; ultrasonic transducers; 2 to 12 cm/s; 2D velocities; 7.5 MHz; accurate volume flow estimates; blood mimicking fluid; circular cross-section; free laminar jet; in vitro; jet diameter; laminar jet phantom; small speckle regions; successive pulse-echo acquisitions; sum-absolute-difference pattern matching algorithm; transducer angle; two-dimensional speckle tracking system; ultrasonic speckle; velocity profiles; volumetric flow; volumetric flow rates; Acoustic tracking; Biomedical acoustic imaging; Biomedical transducers; Blood flow measurement; Pattern matching; Speckle;
Conference_Titel :
Ultrasonics Symposium, 1994. Proceedings., 1994 IEEE
Conference_Location :
Cannes, France
Print_ISBN :
0-7803-2012-3
DOI :
10.1109/ULTSYM.1994.401917
