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6 December 1996 NIR imaging in random media using time domain data
Regina Model, Rolf Huenlich, Matthias Orlt, M. Walzel
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Proceedings Volume 2925, Photon Propagation in Tissues II; (1996) https://doi.org/10.1117/12.260829
Event: BiOS Europe '96, 1996, Vienna, Austria
Abstract
A reconstruction method based on the diffusion approximation for the light propagation in turbid media and on a minimization strategy is presented. A higher accuracy for the forward simulation and a considerable reduction of the computational effort are reached by solving a partial differential equation for the difference between the time- dependent photon density in an inhomogeneous object and the density in the homogeneous case given by an analytic expression. The calculations are performed by a 2D-FEM algorithm, but considering a time-dependent corrective factor the 3D situation is well approximated. The number of free variables of the inverse problem can be strongly reduced by exploiting a priori information such as the search for single inhomogeneities within a relatively homogeneous object, a typical situation for breast cancer detection.
© (1996) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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Regina Model, Rolf Huenlich, Matthias Orlt, and M. Walzel "NIR imaging in random media using time domain data", Proc. SPIE 2925, Photon Propagation in Tissues II, (6 December 1996); https://doi.org/10.1117/12.260829
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KEYWORDS
Sensors
Absorption
Diffusion
Chlorine
Optical spheres
3D modeling
Information operations
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