The Radiosity Diffusion Model in 3D

Jason D. Riley; Simon R. Arridge; Yiorgos Chrysanthou; Hamid Dehghani; Elizabeth M. C. Hillman; Martin Schweiger

doi:10.1364/ECBO.2001.4431_153

Photon Migration, Optical Coherence Tomography, and Microscopy
Technical Digest Series (Optica Publishing Group, 2001),
paper 4431_153
•https://doi.org/10.1364/ECBO.2001.4431_153

The Radiosity Diffusion Model in 3D

Jason D. Riley, Simon R. Arridge, Yiorgos Chrysanthou, Hamid Dehghani, Elizabeth M. C. Hillman, and Martin Schweiger

European Conference on Biomedical Optics 2001

Munich Germany
18–21 June 2001
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Reconstruction Methods for Turbid Media (4431)

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J. D. Riley, S. R. Arridge, Y. Chrysanthou, H. Dehghani, E. M. C. Hillman, and M. Schweiger, "The Radiosity Diffusion Model in 3D," in Photon Migration, Optical Coherence Tomography, and Microscopy, Technical Digest Series (Optica Publishing Group, 2001), paper 4431_153.

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Abstract

We present the Radiosity-Diffusion model in three dimensions (3D), as an extension to previous work in 2D. It is a method for handling non-scattering spaces in optically participating media. We present the extension of the model to 3D including an extension to the model to cope with increased complexity of the 3D domain. We show that in 3D more careful consideration must be given to the issues of meshing and visibility to model the transport of light within reasonable computational bounds. We demonstrate the model to be comparable to Monte-Carlo simulations for selected geometries, and show preliminary results of comparisons to measured time-resolved data acquired on resin phantoms.

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