Title :
Decorrelation of intravascular ultrasound signals: a computer simulation study
Author :
Li, W. ; Lancée, C.T. ; Cespedes, E.I. ; van der Steen, A.F.W. ; Bom, N.
Author_Institution :
Thorax Centre, Erasmus Univ., Rotterdam, Netherlands
Abstract :
A computer model based on the impulse response method to simulate the ultrasound field of a 30 MHz transducer was developed for studying the decorrelation properties of echo signals from an intravascular scanner. The decorrelation due to (1) lateral displacement, (2) axial displacement, (3) noise level, (4) velocity distribution and (5) variance in correlation estimate were investigated. The results show that the lateral decorrelation function can be approximated by a linear model, which provides a basis for flow quantitation by decorrelation processing. Decorrelation sources unrelated to the motion of blood particles such as noise can be ignored at intravascular imaging conditions. In conclusion, this study provides insight into the parameters that affect decorrelation-based flow assessment and predicts the feasibility of such an approach using IVUS techniques
Keywords :
acoustic signal processing; biomedical ultrasonics; blood flow measurement; blood vessels; decorrelation; digital simulation; medical image processing; 30 MHz; blood particles motion; computer model; computer simulation study; decorrelation-based flow assessment; flow quantitation; impulse response method; intravascular ultrasound signals decorrelation; lateral decorrelation function; linear model; velocity distribution; Acoustic scattering; Acoustic transducers; Blood; Computer simulation; Decorrelation; Particle scattering; Radio frequency; Rayleigh scattering; Ultrasonic imaging; Ultrasonic transducers;
Conference_Titel :
Ultrasonics Symposium, 1997. Proceedings., 1997 IEEE
Conference_Location :
Toronto, Ont.
Print_ISBN :
0-7803-4153-8
DOI :
10.1109/ULTSYM.1997.661785
