Model-based optoacoustic reconstruction can incorporate the shape of transducers. However, the accompanying memory cost will hinder it for high resolution performance. The propose method provides over an order of magnitude reduction in inversion time in experiments. Additionally, it also suits for the analysis of inversion stability
Image quality in 3-D optoacoustic (photoacoustic) tomography is greatly influenced by both the measu...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
The inversion accuracy in optoacoustic tomography depends on a number of parameters, including the n...
PURPOSE: Optoacoustic imaging enables mapping the optical absorption of biological tissue using opti...
In optoacoustic tomography, detectors with relatively large areas are often employed to achieve high...
In many practical optoacoustic imaging implementations, dimensionality of the tomographic problem is...
Analytical (closed-form) inversion schemes have been the standard approach for image reconstruction ...
Purpose: Image quantification in optoacoustic tomography implies the use of accurate forward models ...
Optimal optoacoustic tomographic sampling is often hindered by the frequency-dependent directivity o...
We present a fast inversion algorithm for quantitative two- and three-dimensional optoacoustic tomog...
Optoacoustic (photoacoustic) mesoscopic and microscopic imaging is often implemented by linearly sca...
A modified quantitative inversion algorithm is presented that minimizes the effects of internal acou...
The focusing capacity of the spherically-focused ultrasonic transducers employed in acoustic resolut...
We describe a novel discretization procedure for model-based inversion in twodimensional optoacousti...
Optoacoustic tomography has recently demonstrated powerful performance in small animal imaging and i...
Image quality in 3-D optoacoustic (photoacoustic) tomography is greatly influenced by both the measu...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
The inversion accuracy in optoacoustic tomography depends on a number of parameters, including the n...
PURPOSE: Optoacoustic imaging enables mapping the optical absorption of biological tissue using opti...
In optoacoustic tomography, detectors with relatively large areas are often employed to achieve high...
In many practical optoacoustic imaging implementations, dimensionality of the tomographic problem is...
Analytical (closed-form) inversion schemes have been the standard approach for image reconstruction ...
Purpose: Image quantification in optoacoustic tomography implies the use of accurate forward models ...
Optimal optoacoustic tomographic sampling is often hindered by the frequency-dependent directivity o...
We present a fast inversion algorithm for quantitative two- and three-dimensional optoacoustic tomog...
Optoacoustic (photoacoustic) mesoscopic and microscopic imaging is often implemented by linearly sca...
A modified quantitative inversion algorithm is presented that minimizes the effects of internal acou...
The focusing capacity of the spherically-focused ultrasonic transducers employed in acoustic resolut...
We describe a novel discretization procedure for model-based inversion in twodimensional optoacousti...
Optoacoustic tomography has recently demonstrated powerful performance in small animal imaging and i...
Image quality in 3-D optoacoustic (photoacoustic) tomography is greatly influenced by both the measu...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
The inversion accuracy in optoacoustic tomography depends on a number of parameters, including the n...
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