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CGF
2006

A Predictive Light Transport Model for the Human Iris

14 years 18 days ago
A Predictive Light Transport Model for the Human Iris
Recently, light interactions with organic matter have become the object of detailed investigations by image synthesis researchers. Besides allowing these materials to be rendered in a more intuitive manner, these efforts aim to extend the scope of computer graphics applications to areas such as applied optics and biomedical imaging. There are, however, organic materials that still lack predictive simulation solutions. Among these, the ocular tissues, especially those forming the human iris, pose the most challenging modeling problems which are often associated with data scarcity. In this paper, we describe the first biophysically-based light transport model for the human iris ever presented in the scientific literature. The proposed model algorithmically simulates the light scattering and absorption processes occurring within the iridal tissues, and computes the spectral radiometric responses of these tissues. Its design is based on the current scientific understanding of the iridal m...
Michael W. Y. Lam, Gladimir V. G. Baranoski
Added 11 Dec 2010
Updated 11 Dec 2010
Type Journal
Year 2006
Where CGF
Authors Michael W. Y. Lam, Gladimir V. G. Baranoski
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