Quantitative photoacoustic tomography by stochastic search: direct recovery of the optical absorption field

We present, perhaps for the first time, a stochastic search algorithm in quantitative photoacoustic tomography (QPAT) for a one-step recovery of the optical absorption map from time-resolved photoacoustic signals. Such a direct recovery is free of the numerical inaccuracies inherent in conventional...

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Veröffentlicht in:	Optics letters 2016-09, Vol.41 (18), p.4202-4205
Hauptverfasser:	Venugopal, Mamatha, van Es, Peter, Manohar, Srirang, Roy, Debasish, Vasu, Ram Mohan
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Jacobians Photoacoustic effect Recovery Recursion Stochasticity Time measurement Tomography
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container_title	Optics letters
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creator	Venugopal, Mamatha van Es, Peter Manohar, Srirang Roy, Debasish Vasu, Ram Mohan
description	We present, perhaps for the first time, a stochastic search algorithm in quantitative photoacoustic tomography (QPAT) for a one-step recovery of the optical absorption map from time-resolved photoacoustic signals. Such a direct recovery is free of the numerical inaccuracies inherent in conventional two-step approaches that depend on an accurate estimation of the absorbed energy distribution. The absorption profile parameterized as a vector stochastic process is additively updated over time recursions so as to drive the measurement-prediction misfit to a zero-mean white noise. The derivative-free additive update is a welcome departure from the conventional gradient-based methods requiring evaluation of Jacobians at every recursion. The quantitative accuracy of the recovered absorption map from both numerical and experimental data is good with an overall error of less than 10%.
doi_str_mv	10.1364/OL.41.004202
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subjects	Absorption Jacobians Photoacoustic effect Recovery Recursion Stochasticity Time measurement Tomography
title	Quantitative photoacoustic tomography by stochastic search: direct recovery of the optical absorption field
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