Add to ORKGCondensed Monte Carlo simulation results have been used for calculating absorption and reduced scattering coefficients from the literature data on the measured total transmittance and total reflectance of samples of the human skin in vitro. The results of several measuring methods have been compared. We have also estimated the range for absorption coefficients and reduced scattering coefficients at 660 and 940 nm from measured intensities at the skin surface as a function of the distance from the location where the light enters the skin by using condensed Monte Carlo simulations for a homogeneous semi-infinite medium. The in vivo values for the absorption coefficients and the reduced scattering coefficients appear to be much smaller than th...
The weak absorption of shortwave infrared light by skin tissues between 700 and 1500 nm offers an im...
An integrated review of the transfer of optical radiation into human skin is presented, aimed at dev...
Accurate knowledge of optical properties of skin tissues is fundamental to the study of tissue optic...
Condensed Monte Carlo simulation results have been used for calculating absorption and reduced scatt...
We have determined in vivo optical scattering properties of normal human skin in 1734 subjects, most...
Despite the notable progress in physically-based rendering, there is still a long way to go before w...
Human skin equivalents (HSEs) are three‐dimensional living models of human skin that are prepared in...
We present the optical measurement techniques used in human skin phantom studies. Their accuracy and...
Skin consists of epidermis and dermis layers that have distinct optical properties. The quantificati...
Absorption and reduced scattering coefficients of in-vivo human skin provide critical information on...
We have simulated diffuse reflectance spectra of skin by assuming a wavelength- independent scatter...
The reflectance spectra of the human skin in visible and near-infrared (NIR) spectral region have b...
We are interested in modeling the interaction between light and biological tissue from the Monte Car...
We introduce a method with which to obtain accurately the bulk optical parameters of fresh biologica...
We present a method to determine chromophore concentrations, blood saturation, and epidermal thickne...
The weak absorption of shortwave infrared light by skin tissues between 700 and 1500 nm offers an im...
An integrated review of the transfer of optical radiation into human skin is presented, aimed at dev...
Accurate knowledge of optical properties of skin tissues is fundamental to the study of tissue optic...
Condensed Monte Carlo simulation results have been used for calculating absorption and reduced scatt...
We have determined in vivo optical scattering properties of normal human skin in 1734 subjects, most...
Despite the notable progress in physically-based rendering, there is still a long way to go before w...
Human skin equivalents (HSEs) are three‐dimensional living models of human skin that are prepared in...
We present the optical measurement techniques used in human skin phantom studies. Their accuracy and...
Skin consists of epidermis and dermis layers that have distinct optical properties. The quantificati...
Absorption and reduced scattering coefficients of in-vivo human skin provide critical information on...
We have simulated diffuse reflectance spectra of skin by assuming a wavelength- independent scatter...
The reflectance spectra of the human skin in visible and near-infrared (NIR) spectral region have b...
We are interested in modeling the interaction between light and biological tissue from the Monte Car...
We introduce a method with which to obtain accurately the bulk optical parameters of fresh biologica...
We present a method to determine chromophore concentrations, blood saturation, and epidermal thickne...
The weak absorption of shortwave infrared light by skin tissues between 700 and 1500 nm offers an im...
An integrated review of the transfer of optical radiation into human skin is presented, aimed at dev...
Accurate knowledge of optical properties of skin tissues is fundamental to the study of tissue optic...