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9 July 2009 Nonlinear fitting procedure for accurate time-resolved measurements in diffusive media
Lorenzo Spinelli, Fabrizio Martelli, Alessandro Torricelli, Antonio Pifferi, Giovanni Zaccanti
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Proceedings Volume 7369, Diffuse Optical Imaging II; 73691C (2009) https://doi.org/10.1117/12.831651
Event: European Conferences on Biomedical Optics, 2009, Munich, Germany
Abstract
In this work we studied the accuracy of a non-linear fitting procedure, based on the Levenberg-Marquardt algorithm, for time-resolved measurements to retrieve the absorption and the reduced scattering coefficients of an absorbing diffusive medium. This procedure is suitable for retrieving optical properties in a wider range of situations (e.g. solid samples, reflectance geometry), with respect to the linear inversion procedures recently presented for both CW and time domain measurements. By means of both analytical and numerical (Monte Carlo) simulations, we quantified the influence of photon counts, temporal sampling, analytical model, background and instrument response function on the accuracy in the estimation of the optical properties. Furthermore, we validated our results with preliminary measurements on calibrated diffusive solutions. The main source of error that affects the accuracy of the absorption and reduced scattering coefficients retrieved by the non-linear procedure appears to be the analytical model adopted in the inversion procedure.
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Lorenzo Spinelli, Fabrizio Martelli, Alessandro Torricelli, Antonio Pifferi, and Giovanni Zaccanti "Nonlinear fitting procedure for accurate time-resolved measurements in diffusive media", Proc. SPIE 7369, Diffuse Optical Imaging II, 73691C (9 July 2009); https://doi.org/10.1117/12.831651
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KEYWORDS
Absorption
Scattering
Monte Carlo methods
Optical properties
Data modeling
Calibration
Nonlinear optics
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