Rehman Ali scite author profile

A model and method to accurately estimate the local speed of sound in tissue from pulse-echo ultrasound data is presented. The model relates the local speeds of sound along a wave propagation path to the average speed of sound over the path, and allows one to avoid bias in the sound-speed estimates that can result from overlying layers of subcutaneous fat and muscle tissue. Herein, the average speed of sound using the approach by Anderson and Trahey is measured, and then the authors solve the proposed model for the local sound-speed via gradient descent. The sound-speed estimator was tested in a series of simulation and ex vivo phantom experiments using two-layer media as a simple model of abdominal tissue. The bias of the local sound-speed estimates from the bottom layers is less than 6.2 m/s, while the bias of the matched Anderson's estimates is as high as 66 m/s. The local speed-of-sound estimates have higher standard deviation than the Anderson's estimates. When the mean local estimate is computed over a 5-by-5 mm region of interest, its standard deviation is reduced to less than 7 m/s.

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Open-source Gauss-Newton-based methods for refraction-corrected ultrasound computed tomography

Ali

Hsieh

Dahl

2019

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Distributed Phase Aberration Correction Techniques Based on Local Sound Speed Estimates

Ali

Dahl

2018

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Pattern formation in oscillatory media without lateral inhibition

2016

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Spontaneous symmetry breaking instabilities are the most common mechanism for how biological, chemical, and physical systems produce spatial patterns. Beginning with Turing's original paper, so-called lateral inhibition-in which negative feedback has greater spread than positive feedback-has been the underlying mechanism for pattern formation in biological models. Despite this, there are many biological systems that exhibit pattern formation but do not have lateral inhibition. In this paper, we present an example of such a system that is able to generate robust patterns emerging from a spatially homogeneous state. In fact, patterns can arise when there is only spatial spread of the activator. Unlike classic Turing pattern formation, these patterns arise from a spatially homogeneous oscillation rather than from a constant steady state.

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Extending Retrospective Encoding for Robust Recovery of the Multistatic Data Set

Ali

Herickhoff

Hyun

et al. 2020

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Distributed Aberration Correction Techniques Based on Tomographic Sound Speed Estimates

Ali

Brevett

Hyun

et al. 2022

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Fourier-based Synthetic-aperture Imaging for Arbitrary Transmissions by Cross-correlation of Transmitted and Received Wave-fields

Ali

2021

Ultrason Imaging

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Investigations into Fourier beamforming for medical ultrasound imaging have largely been limited to plane-wave and single-element transmissions. The main aim of this work is to generalize Fourier beamforming to enable synthetic aperture imaging with arbitrary transmit sequences. When applied to focused transmit beams, the proposed approach yields a full-waveform-based alternative to virtual-source synthetic aperture, which has implications for both coherence imaging and sound speed estimation. When compared to virtual-source synthetic aperture and retrospective encoding for conventional ultrasound sequences (REFoCUS), the proposed imaging technique shows an 8.6 and 3.8 dB improvement in contrast over virtual source synthetic aperture and REFoCUS, respectively, and a 55% improvement in point target resolution over virtual source synthetic aperture. The proposed image reconstruction technique also demonstrates general imaging improvements in vivo, while avoiding limitations seen in prior techniques.

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Rehman Ali

Exploring deep neural networks for rumor detection

Local speed of sound estimation in tissue using pulse-echo ultrasound: Model-based approach

Open-source Gauss-Newton-based methods for refraction-corrected ultrasound computed tomography

Distributed Phase Aberration Correction Techniques Based on Local Sound Speed Estimates

Pattern formation in oscillatory media without lateral inhibition

Extending Retrospective Encoding for Robust Recovery of the Multistatic Data Set

Distributed Aberration Correction Techniques Based on Tomographic Sound Speed Estimates

Fourier-based Synthetic-aperture Imaging for Arbitrary Transmissions by Cross-correlation of Transmitted and Received Wave-fields

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