This review describes the diffusion model for light transport in tissues and the medical
applications of diffuse light. Diffuse optics is particularly useful for measurement of tissue …

This is a review of recent mathematical and computational advances in optical tomography.
We discuss the physical foundations of forward models for light propagation on microscopic …

Abstract Model reduction is often required in several applications, typically due to limited
available time, computer memory or other restrictions. In problems that are related to partial …

A nonlinear, Bayesian optimization scheme is presented for reconstructing fluorescent yield
and lifetime, the absorption coefficient, and the diffusion coefficient in turbid media, such as …

Diffuse optical tomography (DOT) poses a typical ill-posed inverse problem with a limited
number of measurements and inherently low spatial resolution. In this paper, we propose a …

A variety of new imaging modalities, such as optical diffusion tomography, require the
inversion of a forward problem that is modeled by the solution to a three-dimensional (3D) …

A method is presented for fluorescence optical diffusion tomography in turbid media using
multiple-frequency data. The method uses a frequency-domain diffusion equation model to …

Fluorescence molecular tomography is an emerging imaging technique that resolves the bio-
distribution of engineered fluorescent probes developed for in vivo reporting of specific …

This work demonstrates the usefulness of 3D printing for optical imaging applications.
Progress in developing optical imaging for biomedical applications requires customizable …

Spectroscopic diffuse optical tomography (DOT) can directly image the concentrations of
physiologically significant chromophores in the body. This information may be of importance …