--- ray/doc/ray.1 2011/02/20 06:34:19 1.19 +++ ray/doc/ray.1 2016/07/10 23:41:37 1.30 @@ -1,8 +1,8 @@ -.\" RCSid "$Id" +.\" RCSid "$Id: ray.1,v 1.30 2016/07/10 23:41:37 greg Exp $" .\" Print using the -ms macro package -.DA 2/17/2011 +.DA 07/10/2016 .LP -.tl """Copyright \(co 2011 Regents, University of California +.tl """Copyright \(co 2016 Regents, University of California .sp 2 .TL The @@ -622,6 +622,21 @@ mod trans2 id 8 red green blue spec urough vrough trans tspec .DE .LP +.UL Ashik2 +.PP +Ashik2 is the anisotropic reflectance model by Ashikhmin & Shirley. +The string arguments are the same as for plastic2, but the real +arguments have additional flexibility to specify the specular color. +Also, rather than roughness, specular power is used, which has no +physical meaning other than larger numbers are equivalent to a smoother +surface. +.DS +mod ashik2 id +4+ ux uy uz funcfile transform +0 +8 dred dgrn dblu sred sgrn sblu u-power v-power +.DE +.LP .UL Dielectric .PP A dielectric material is transparent, and it refracts light @@ -898,6 +913,9 @@ If the BSDF has transmission and back-side reflection a parallel BSDF surface may be placed slightly less than the given thickness away from the front surface to enclose the complex geometry on both sides. +The sign of the thickness is important, as it indicates whether the +proxied geometry is behind the BSDF surface (when thickness is positive) +or in front (when thickness is negative). .LP The second string argument is the name of the BSDF file, which is found in the usual auxiliary locations. @@ -1152,6 +1170,7 @@ between 0.1 (for tightly spaced characters) and 0.3 (f Mixtures .PP A mixture is a blend of one or more materials or textures and patterns. +Blended materials should not be light source types or virtual source types. The basic types are given below. .LP .UL Mixfunc @@ -1548,6 +1567,25 @@ the Ecole Polytechnique Federale de Lausanne (EPFL Uni in Lausanne, Switzerland. .NH 1 References +.LP +Ward, G., M. Kurt & N. Bonneel, +``Reducing Anisotropic BSDF Measurement to Common Practice,'' +.I Workshop on Material Appearance Modeling, +2014. +.LP +McNeil, A., C.J. Jonsson, D. Appelfeld, G. Ward, E.S. Lee, +``A validation of a ray-tracing tool used to generate +bi-directional scattering distribution functions for +complex fenestration systems,'' +.I "Solar Energy", +98, 404-14, November 2013. +.LP +Ward, G., R. Mistrick, E.S. Lee, A. McNeil, J. Jonsson, +``Simulating the Daylight Performance of Complex Fenestration Systems +Using Bidirectional Scattering Distribution Functions within Radiance,'' +.I "Leukos", +7(4), +April 2011. .LP Cater, K., A. Chalmers, G. Ward, ``Detail to Attention: Exploiting Visual Tasks for Selective Rendering,''