A Biologically-Inspired Appearance Model for Snake Skin

Loading...
Thumbnail Image
Date
2023
Journal Title
Journal ISSN
Volume Title
Publisher
The Eurographics Association
Abstract
Simulating the light transport on biological tissues is a longstanding challenge, given its complex multilayered structure. In biology, one of the most remarkable and studied examples of tissues are the scales that cover the skin of reptiles, which present a combination of photonic structures and pigmentation. This is, however, a somewhat ignored problem in computer graphics. In this work, we propose a multilayered appearance model based on the anatomy of the snake skin. Some snakes are known for their striking, highly iridescent scales resulting from light interference. We model snake skin as a two-layered reflectance function: The top layer is a thin layer resulting on a specular iridescent reflection, while the bottom layer is a diffuse highlyabsorbing layer, that results into a dark diffuse appearance that maximizes the iridescent color of the skin. We demonstrate our layered material on a wide range of appearances, and show that our model is able to qualitatively match the appearance of snake skin.
Description

        
@inproceedings{
10.2312:ceig.20231143
, booktitle = {
Spanish Computer Graphics Conference (CEIG)
}, editor = {
Gimeno Sancho, JesĂşs
and
Comino Trinidad, Marc
}, title = {{
A Biologically-Inspired Appearance Model for Snake Skin
}}, author = {
Padron-Griffe, Juan Raul
and
Bielsa, Diego
and
Jarabo, Adrian
and
Muñoz, Adolfo
}, year = {
2023
}, publisher = {
The Eurographics Association
}, ISBN = {
978-3-03868-230-1
}, DOI = {
10.2312/ceig.20231143
} }
Citation
Collections