We describe a novel discretization procedure for model-based inversion in twodimensional optoacoustic tomography. This procedure can be efficiently implemented on a graphic-processing-unit and enables model-based image reconstruction at a frame rate exceeding 10 Hz
Optoacoustic tomography has recently demonstrated powerful performance in small animal imaging and i...
Purpose: Optoacoustic imaging is an emerging noninvasive imaging modality that can resolve optical c...
Obtaining quantified optoacoustic reconstructions is an important and longstanding challenge, mainly...
Analytical (closed-form) inversion schemes have been the standard approach for image reconstruction ...
In order to achieve real-time image rendering, optoacoustic tomography reconstructions are commonly ...
We present a fast inversion algorithm for quantitative two- and three-dimensional optoacoustic tomog...
In many practical optoacoustic imaging implementations, dimensionality of the tomographic problem is...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
Purpose: Image quantification in optoacoustic tomography implies the use of accurate forward models ...
PURPOSE: With recent advancement in hardware of optoacoustic imaging systems, highly detailed cross-...
In optoacoustic tomography, images representing the light absorption distribution are reconstructed ...
A commonly employed optoacoustic configuration utilizes an array of cylindrically-focused transducer...
Optimal optoacoustic tomographic sampling is often hindered by the frequency-dependent directivity o...
The inversion accuracy in optoacoustic tomography depends on a number of parameters, including the n...
Optoacoustic tomography has recently demonstrated powerful performance in small animal imaging and i...
Purpose: Optoacoustic imaging is an emerging noninvasive imaging modality that can resolve optical c...
Obtaining quantified optoacoustic reconstructions is an important and longstanding challenge, mainly...
Analytical (closed-form) inversion schemes have been the standard approach for image reconstruction ...
In order to achieve real-time image rendering, optoacoustic tomography reconstructions are commonly ...
We present a fast inversion algorithm for quantitative two- and three-dimensional optoacoustic tomog...
In many practical optoacoustic imaging implementations, dimensionality of the tomographic problem is...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
Iterative model-based algorithms are known to enable more accurate and quantitative optoacoustic (ph...
Purpose: Image quantification in optoacoustic tomography implies the use of accurate forward models ...
PURPOSE: With recent advancement in hardware of optoacoustic imaging systems, highly detailed cross-...
In optoacoustic tomography, images representing the light absorption distribution are reconstructed ...
A commonly employed optoacoustic configuration utilizes an array of cylindrically-focused transducer...
Optimal optoacoustic tomographic sampling is often hindered by the frequency-dependent directivity o...
The inversion accuracy in optoacoustic tomography depends on a number of parameters, including the n...
Optoacoustic tomography has recently demonstrated powerful performance in small animal imaging and i...
Purpose: Optoacoustic imaging is an emerging noninvasive imaging modality that can resolve optical c...
Obtaining quantified optoacoustic reconstructions is an important and longstanding challenge, mainly...
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