Proceedings ArticleDOI
Comparison of two novel-strategies to obtain sub-pitch resolution in ultrasound elastography
Sathiyamoorthy S,Arun K. Thittai +1 more
- pp 903-906
TLDR
A novel method of acquiring and augmenting post-beamformed RF A-line in sub-pitch locations by electronically translating the sub-aperture by activating odd and even number of elements alternatively is explored.Abstract:
In elastography, Conventional Linear Array (CLA) - based RF data acquisition can only provide good quality displacement measurements in the direction of beam propagation (axial direction). For obtaining high-precision Lateral Displacement Estimation (LDE), one of the popular methods is by interpolating A-lines in between neighboring RF A-lines. However, acquiring and utilizing the actual data from sub-pitch location will yield fundamentally better estimation. In this paper, we explore a novel method of acquiring and augmenting post-beamformed RF A-line in sub-pitch locations by electronically translating the sub-aperture by activating odd and even number of elements alternatively. We compare this approach to another recently described method where sub-pitch translations of beams were accomplished by actuator-assisted translation of the linear array transducer. The performances of the methods were studied through simulation and experiments on phantoms. The results demonstrate that these methods yield better quality LDE compared to those obtained from interpolation of RF A-lines.read more
Citations
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Journal ArticleDOI
Strategies to Obtain Subpitch Precision in Lateral Motion Estimation in Ultrasound Elastography
TL;DR: This work describes a method wherein true RF A-lines are acquired and augmented at subpitch locations using CLA transducer, instead of interpolating the data, and using this new frame data for further image formation and/or processing to yield better lateral resolution and LDE.
Journal ArticleDOI
Actuator-assisted Subpitch Translation-capable Transducer for Elastography: Preliminary Performance Assessment:
TL;DR: The results demonstrate an additional advantage of having larger field of view for the ABT method compared with spatial compounding approach, and the contrast-to-noise ratio (CNR) estimated from rotation elastogram obtained using ABt method is better by 300% and 35% compared with that obtained by using CLA and SDC methods, respectively.
References
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