--- ray/doc/ray.html 2011/07/15 20:59:36 1.17 +++ ray/doc/ray.html 2020/09/03 15:46:32 1.29 @@ -1,7 +1,8 @@ + -The RADIANCE 4.1 Synthetic Imaging System +The RADIANCE 5.4 Synthetic Imaging System @@ -9,7 +10,7 @@ The RADIANCE 4.1 Synthetic Imaging System

-The RADIANCE 4.1 Synthetic Imaging System +The RADIANCE 5.4 Synthetic Imaging System

@@ -797,7 +798,8 @@ unless the line integrals consider enclosed geometry.

Trans2 is the anisotropic version of trans. - The string arguments are the same as for plastic2, and the real arguments are the same as for trans but with an additional roughness value. + The string arguments are the same as for plastic2, + and the real arguments are the same as for trans but with an additional roughness value.

         mod trans2 id
@@ -809,6 +811,27 @@ unless the line integrals consider enclosed geometry.
 
 
 

+	
+	Ashik2
+	
+
+

+	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.
++	mod ashik2 id
+	4+ ux uy uz funcfile transform
+	0
+	8 dred dgrn dblu sred sgrn sblu u-power v-power
+
+
+
+
+

 	
 	Dielectric
 	
@@ -1131,6 +1154,38 @@ unless the line integrals consider enclosed geometry.
 
 
 

+	
+	aBSDF
+	
+
+

+	The aBSDF material is identical to the BSDF type with two
+	important differences.  First, proxy geometry is not
+	supported, so there is no thickness parameter.  Second, an
+	aBSDF is assumed to have some specular through component
+	(the ’a’ stands for "aperture"),
+	which is treated specially during the direct calculation
+	and when viewing the material.  Based on the BSDF data, the
+	coefficient of specular transmission is determined and used
+	for modifying unscattered shadow and view rays.
+
++	mod aBSDF id
+	5+ BSDFfile ux uy uz funcfile transform
+	0
+	0|3|6|9
+	     rfdif gfdif bfdif
+	     rbdif gbdif bbdif
+	     rtdif gtdif btdif
+
+
+
+	If a material has no specular transmitted component, it is
+	much better to use the BSDF type with a zero thickness
+	than to use aBSDF.
+

+
+

 	
 	Antimatter
 	
@@ -1414,6 +1469,7 @@ or:
 
 
 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.
 
 
@@ -1486,7 +1542,6 @@ A mixfunc mixes  two  modifiers  procedurally.   It  i
 	arguments, the red, green and blue values
 	corresponding to the pixel at (u,v).
 
-
 

 
 

@@ -1788,16 +1843,10 @@ Pictures may be displayed directly under X11 using the
 or converted a standard image format using one of the following
 translators:
 	
-	 Ra_avs
-		converts to and from AVS image format.
-	
 Ra_pict
-		converts to Macintosh 32-bit PICT2 format.
+	
 Ra_bmp
+		converts to and from BMP image format.
 	
 Ra_ppm
 		converts to and from Poskanzer Portable Pixmap formats.
-	
 Ra_pr
-		converts to and from Sun 8-bit rasterfile format.
-	
 Ra_pr24
-		converts to and from Sun 24-bit rasterfile format.
 	
 Ra_ps
 		converts to PostScript color and greyscale formats.
 	
 Ra_rgbe
@@ -1823,7 +1872,7 @@ or converted a standard image format using one of the 
  The Radiance Software License, Version 1.0
 
-Copyright (c) 1990 - 2010 The Regents of the University of California,
+Copyright (c) 1990 - 2014 The Regents of the University of California,
 through Lawrence Berkeley National Laboratory.   All rights reserved.
 
 Redistribution and use in source and binary forms, with or without
@@ -1896,12 +1945,45 @@ Ecole  Polytechnique  Federale de Lausanne (EPFL Unive
 
 
 

+    Wang, Taoning, Gregory Ward, Eleanor Lee,
+      "Efficient
+      modeling of optically-complex, non-coplanar exterior shading:
+      Validation of matrix algebraic methods"
+      Energy & Buildings, vol. 174, pp. 464-83, Sept. 2018.
+    
Lee, Eleanor S., David Geisler-Moroder, Gregory Ward,
+      "Modeling
+      the direct sun component in buildings using matrix
+      algebraic approaches: Methods and
+      validation," Solar Energy,
+      vol. 160, 15 January 2018, pp 380-395.
+    
Narain, Rahul, Rachel A. Albert, Abdullah Bulbul,
+       Gregory J. Ward, Marty Banks, James F. O'Brien,
+       "Optimal
+       Presentation of Imagery with Focus
+       Cues on Multi-Plane Displays,"
+       SIGGRAPH 2015.
+    
Ward, Greg, Murat Kurt, and Nicolas Bonneel,
+        "Reducing
+	Anisotropic BSDF Measurement to Common Practice,"
+	Workshop on Material Appearance Modeling, 2014.
+    
Banks, Martin, Abdullah Bulbul, Rachel Albert, Rahul Narain,
+	James F. O'Brien, Gregory Ward,
+        "The
+	Perception of Surface Material from Disparity and Focus Cues,"
+	VSS 2014.
+    
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,"
+	Solar Energy, 98, 404-14,
+	November 2013.
     
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,"
-	Journal of the Illuminating Engineering Soc. of North America,
+	Leukos, 7(4)
 	April 2011.
     
Cater, Kirsten, Alan Chalmers, Greg Ward,
     	"Detail to Attention: