2012
DOI: 10.1109/tuffc.2012.2184
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Multi-channel pre-beamformed data acquisition system for research on advanced ultrasound imaging methods

Abstract: The lack of open access to the pre-beamformed data of an ultrasound scanner has limited the research of novel imaging methods to a few privileged laboratories. To address this need, we have developed a pre-beamformed data acquisition (DAQ) system that can collect data over 128 array elements in parallel from the Ultrasonix series of research-purpose ultrasound scanners. Our DAQ system comprises three system-level blocks: 1) a connector board that interfaces with the array probe and the scanner through a probe … Show more

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Cited by 64 publications
(29 citation statements)
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“…In all subsequent measurements with the skull in place, the focal pressure was monitored with the calibrated ceramic transducer. The raw RF data from the receiver array were recorded using a 128-element data acquisition system (SonixDAQ, Ultrasonix, Richmond, BC, Canada) 82 at a sampling rate between 10 and 40 MS s …”
Section: −1mentioning
confidence: 99%
“…In all subsequent measurements with the skull in place, the focal pressure was monitored with the calibrated ceramic transducer. The raw RF data from the receiver array were recorded using a 128-element data acquisition system (SonixDAQ, Ultrasonix, Richmond, BC, Canada) 82 at a sampling rate between 10 and 40 MS s …”
Section: −1mentioning
confidence: 99%
“…Worth particular mention are the in-house systems built at the Technical University of Denmark [19,23], the University of Florence [21,24], the Langevin Institute in Paris [35], and the Polish Academy of Sciences [36]. A few commercially available research platforms also allow similar HiFRUS implementations, such as Analogic Ultrasound (Peabody, MA, USA) [37], Verasonics (Kirkland, WA, USA) [22], US4US (Warsaw, Poland), and Cephasonics (Santa Clara, CA, USA). Note that most conventional ultrasound scanners cannot be readily reconfigured to implement HiFRUS because their architecture is typically developed through an embedded system design approach that only specializes in performing beamline-based imaging [25]; this is why research scanners have become essential for advances in diagnostic ultrasound.…”
Section: A Synopsis Of High Frame Rate Ultrasound Technologymentioning
confidence: 99%
“…While few clinical ultrasound systems have the capability for HiFRUS imaging, certain research systems allow for customization of the transmit firing sequence of every array channel and the acquisition of channel-domain data for customized algorithmic processing [19][20][21][22][23][24][35][36][37]. In general, HiFRUS imaging studies rigorously report the technical specifics of the experimental methods, such as the array pitch, probe frequency, transmit pulse duration, pulse repetition frequency, steering angles, and spherical source positioning.…”
Section: Standards In Technical Reportingmentioning
confidence: 99%
“…In recent years, with a series of advances in research purpose ultrasound imaging systems [64], [65], [66], [67] and channeldomain data acquisition technology [68], [69], [70], new implementations of cross-beam Doppler flow vector estimation have been reported. These newer schemes have appeared in the forms of: (i) single-line, multi-gate flow vector estimation [71], [72], and (ii) flow vector mapping over the entire field of view [73], [74], [75].…”
Section: Multi-direction Velocity Estimationmentioning
confidence: 99%