Poisson statistical model of ultrasound super-resolution imaging acquisition time
K Christensen-Jeffries, J Brown… - IEEE transactions on …, 2019 - ieeexplore.ieee.org
A number of acoustic super-resolution techniques have recently been developed to
visualize microvascular structure and flow beyond the diffraction limit. A crucial aspect of all …
visualize microvascular structure and flow beyond the diffraction limit. A crucial aspect of all …
Microbubble axial localization errors in ultrasound super-resolution imaging
K Christensen-Jeffries, S Harput… - IEEE transactions on …, 2017 - ieeexplore.ieee.org
Acoustic super-resolution imaging has allowed the visualization of microvascular structure
and flow beyond the diffraction limit using standard clinical ultrasound systems through the …
and flow beyond the diffraction limit using standard clinical ultrasound systems through the …
On the effects of spatial sampling quantization in super-resolution ultrasound microvessel imaging
Ultrasound super-resolution (SR) microvessel imaging technologies are rapidly emerging
and evolving. The unprecedented combination of imaging resolution and penetration …
and evolving. The unprecedented combination of imaging resolution and penetration …
Morphological reconstruction improves microvessel mapping in super-resolution ultrasound
Generation of super-resolution (SR) ultrasound (US) images, created from the successive
localization of individual microbubbles in the circulation, has enabled the visualization of …
localization of individual microbubbles in the circulation, has enabled the visualization of …
Robust microbubble tracking for super resolution imaging in ultrasound
KB Hansen, CA Villagómez-Hoyos… - 2016 IEEE …, 2016 - ieeexplore.ieee.org
Currently ultrasound resolution is limited by diffraction to approximately half the wavelength
of the sound wave employed. In recent years, super resolution imaging techniques have …
of the sound wave employed. In recent years, super resolution imaging techniques have …
Microbubble localization for three-dimensional superresolution ultrasound imaging using curve fitting and deconvolution methods
F Foroozan, MA O'Reilly… - IEEE Transactions on …, 2018 - ieeexplore.ieee.org
Superresolution algorithms in ultrasound imaging are attracting the interest of researchers
recently due to the ability of these methods to enable enhanced vascular imaging. In this …
recently due to the ability of these methods to enable enhanced vascular imaging. In this …
Sparsity-driven super-resolution in clinical contrast-enhanced ultrasound
Super-resolution ultrasound enables detailed assessment of the fine vascular network by
pinpointing individual microbubbles, using ultrasound contrast agents. The fidelity and …
pinpointing individual microbubbles, using ultrasound contrast agents. The fidelity and …
In vivo acoustic super-resolution and super-resolved velocity mapping using microbubbles
K Christensen-Jeffries, RJ Browning… - IEEE transactions on …, 2014 - ieeexplore.ieee.org
The structure of microvasculature cannot be resolved using standard clinical ultrasound
(US) imaging frequencies due to the fundamental diffraction limit of US waves. In this work …
(US) imaging frequencies due to the fundamental diffraction limit of US waves. In this work …
3-D In Vitro Acoustic Super-Resolution and Super-Resolved Velocity Mapping Using Microbubbles
K Christensen-Jeffries, J Brown… - IEEE transactions on …, 2017 - ieeexplore.ieee.org
Standard clinical ultrasound (US) imaging frequencies are unable to resolve microvascular
structures due to the fundamental diffraction limit of US waves. Recent demonstrations of 2 …
structures due to the fundamental diffraction limit of US waves. Recent demonstrations of 2 …
Super-resolution ultrasound through sparsity-based deconvolution and multi-feature tracking
Ultrasound super-resolution imaging through localisation and tracking of microbubbles can
achieve sub-wave-diffraction resolution in mapping both micro-vascular structure and flow …
achieve sub-wave-diffraction resolution in mapping both micro-vascular structure and flow …