## Abstract

Fluorescence diffuse optical tomography is a powerful tool for the investigation of molecular events in studies for new therapeutic developments. Here, the stress is put on the mathematical problem of tomography, which can be formulated in terms of an estimation of physical parameters appearing as a set of partial differential equations and solved by the finite element method. This method is well known to be time consuming, and our principal objective is to reduce the model in order to speed up computation. A method based on a wavelet multiresolution technique is presented in detail. A validation study was conducted on synthetic data and experiments.

© 2009 Optical Society of America

Full Article | PDF Article**OSA Recommended Articles**

Anne Landragin-Frassati, Stéphane Bonnet, Anabela Da Silva, Jean-Marc Dinten, and Didier Georges

Opt. Express **17**(21) 18433-18448 (2009)

Wei Zou, Jiajun Wang, and David Dagan Feng

J. Opt. Soc. Am. A **30**(8) 1464-1475 (2013)

Athanasios Zacharopoulos, Martin Schweiger, Ville Kolehmainen, and Simon Arridge

Opt. Express **17**(21) 18940-18956 (2009)