Title :
Parallel processing techniques for the speckle brightness phase aberration correction algorithm
Author :
Freiburger, Paul D. ; Trahey, Gregg E.
Author_Institution :
Siemens Med. Syst., Issaquah, WA, USA
fDate :
3/1/1997 12:00:00 AM
Abstract :
The speckle brightness adaptive algorithm has previously been implemented in approximately real-time on low frequency, one-dimensional arrays. To increase the speed of this technique, a temporally parallel algorithm and a spatially parallel algorithm are described. Theoretical analyses, simulation results and experimental measurements are presented for these algorithms. Theoretical predictions indicate that these techniques increase the correction speed, but some decrease in the accuracy of the compensating phase estimate occurs. Simulation results indicate that these parallel algorithms perform well at removing the effects of phase aberration. Preliminary experimental measurements demonstrate the correction speed improvements achievable with these algorithms.
Keywords :
aberrations; acoustic correlation; biomedical ultrasonics; brightness; image resolution; medical image processing; parallel algorithms; ultrasonic transducer arrays; accuracy; compensating phase estimate; correction speed; parallel processing techniques; simulation results; spatially parallel algorithm; speckle brightness adaptive algorithm; speckle brightness phase aberration correction algorithm; temporally parallel algorithm; ultrasound medical imaging; Adaptive algorithm; Adaptive arrays; Algorithm design and analysis; Analytical models; Brightness; Frequency; Parallel algorithms; Parallel processing; Phase estimation; Speckle;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
