trova@unifi(opens in a new window)|View at Publisher| Export | Download | Add to List | More... IEEE International Ultrasonics Symposium, IUS Volume 2016-November, 1 November 2016, Article number 7728428 2016 IEEE International Ultrasonics Symposium, IUS 2016; Tours; France; 18 September 2016 through 21 September 2016; Category numberCFP16ULT-ART; Code 124585 Multi-line measurements of blood velocity vectors in real-time (Conference Paper) Ricci, S. , Bassi, L., Meacci, V., Ramalli, A., Boni, E., Tortoli, P. Information Engineering, University of Florence, Italy View references (17) Abstract Standard Doppler ultrasound investigations are limited to detect the axial blood velocity component, as they cannot directly estimate the flow direction. A typical approach for obtaining velocity vectors consists in combining the Doppler shifts detected by receiving the echoes from two (or more) different directions. Together with plane wave transmission, this strategy can assess the velocity data over a 2D region. Real time performance is achievable, provided that the electronics is capable of beamforming and processing the data acquired from several probe apertures in between consecutive transmissions. Recently, the ULA-OP 256 research scanner was equipped with a beamformer that, exploiting a parallel/serial process strategy, grants the calculation power for beamforming and processing multiple lines. In this work we present a vector Doppler method, based on the transmission of plane waves, which detects the velocity vectors on 8 parallel lines distributed over a 2D region 1 cm wide. The method is implemented on the ULA-OP 256 scanner and it achieves, in real-time, a refresh rate higher than 20 Hz when combined in duplex with a standard B-mode. Experiments on the carotid artery of a volunteer are reported, which show the effectiveness of the real-time implementation in detecting the complex flow patterns present in the carotid.

Multi-line measurements of blood velocity vectors in real-time / Ricci, S.; Bassi, L.; Meacci, V.; Ramalli, A.; Boni, E.; Tortoli, P.. - ELETTRONICO. - 2016-:(2016), pp. 1-4. (Intervento presentato al convegno 2016 IEEE International Ultrasonics Symposium, IUS 2016 tenutosi a Tours nel 2016) [10.1109/ULTSYM.2016.7728428].

Multi-line measurements of blood velocity vectors in real-time

RICCI, STEFANO;BASSI, LUCA;MEACCI, VALENTINO;RAMALLI, ALESSANDRO;BONI, ENRICO;TORTOLI, PIERO
2016

Abstract

trova@unifi(opens in a new window)|View at Publisher| Export | Download | Add to List | More... IEEE International Ultrasonics Symposium, IUS Volume 2016-November, 1 November 2016, Article number 7728428 2016 IEEE International Ultrasonics Symposium, IUS 2016; Tours; France; 18 September 2016 through 21 September 2016; Category numberCFP16ULT-ART; Code 124585 Multi-line measurements of blood velocity vectors in real-time (Conference Paper) Ricci, S. , Bassi, L., Meacci, V., Ramalli, A., Boni, E., Tortoli, P. Information Engineering, University of Florence, Italy View references (17) Abstract Standard Doppler ultrasound investigations are limited to detect the axial blood velocity component, as they cannot directly estimate the flow direction. A typical approach for obtaining velocity vectors consists in combining the Doppler shifts detected by receiving the echoes from two (or more) different directions. Together with plane wave transmission, this strategy can assess the velocity data over a 2D region. Real time performance is achievable, provided that the electronics is capable of beamforming and processing the data acquired from several probe apertures in between consecutive transmissions. Recently, the ULA-OP 256 research scanner was equipped with a beamformer that, exploiting a parallel/serial process strategy, grants the calculation power for beamforming and processing multiple lines. In this work we present a vector Doppler method, based on the transmission of plane waves, which detects the velocity vectors on 8 parallel lines distributed over a 2D region 1 cm wide. The method is implemented on the ULA-OP 256 scanner and it achieves, in real-time, a refresh rate higher than 20 Hz when combined in duplex with a standard B-mode. Experiments on the carotid artery of a volunteer are reported, which show the effectiveness of the real-time implementation in detecting the complex flow patterns present in the carotid.
2016
IEEE International Ultrasonics Symposium, IUS
2016 IEEE International Ultrasonics Symposium, IUS 2016
Tours
2016
Ricci, S.; Bassi, L.; Meacci, V.; Ramalli, A.; Boni, E.; Tortoli, P.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1067700
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