A Hyperspectral Space of Skin Tones for Inverse Rendering of Biophysical Skin Properties
We present a method for estimating the main properties of human skin, leveraging a
hyperspectral dataset of skin tones synthetically generated through a biophysical layered
skin model and Monte Carlo light transport simulations. Our approach learns the mapping
between the skin parameters and diffuse skin reflectance in such space through an encoder‐
decoder network. We assess the performance of RGB and spectral reflectance up to 1 μm,
allowing the model to retrieve visible and near‐infrared. Instead of restricting the parameters …
hyperspectral dataset of skin tones synthetically generated through a biophysical layered
skin model and Monte Carlo light transport simulations. Our approach learns the mapping
between the skin parameters and diffuse skin reflectance in such space through an encoder‐
decoder network. We assess the performance of RGB and spectral reflectance up to 1 μm,
allowing the model to retrieve visible and near‐infrared. Instead of restricting the parameters …
Abstract
We present a method for estimating the main properties of human skin, leveraging a hyperspectral dataset of skin tones synthetically generated through a biophysical layered skin model and Monte Carlo light transport simulations. Our approach learns the mapping between the skin parameters and diffuse skin reflectance in such space through an encoder‐decoder network. We assess the performance of RGB and spectral reflectance up to 1 μm, allowing the model to retrieve visible and near‐infrared. Instead of restricting the parameters to values in the ranges reported in medical literature, we allow the model to exceed such ranges to gain expressiveness to recover outliers like beard, eyebrows, rushes and other imperfections. The continuity of our albedo space allows to recover smooth textures of skin properties, enabling reflectance manipulations by meaningful edits of the skin properties. The space is robust under different illumination conditions, and presents high spectral similarity with the current largest datasets of spectral measurements of real human skin while expanding its gamut.
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