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Comparing ray/doc/ray.html (file contents):
Revision 1.14 by greg, Wed Jun 22 00:12:43 2011 UTC vs.
Revision 1.31 by greg, Thu May 11 17:18:39 2023 UTC

#	Line 1 \| Line 1
1		<html>
2	+	<!-- RCSid $Id$ -->
3		<head>
4		<title>
5	<	The RADIANCE 4.1 Synthetic Imaging System
5	>	The RADIANCE 5.4 Synthetic Imaging System
6		</title>
7		</head>
8		<body>
#	Line 9 \| Line 10 \| The RADIANCE 4.1 Synthetic Imaging System
10		<p>
11
12		<h1>
13	<	The RADIANCE 4.1 Synthetic Imaging System
13	>	The RADIANCE 5.4 Synthetic Imaging System
14		</h1>
15
16		<p>
#	Line 82 \| Line 83 \| The diagram in Figure 1 shows the flow between program
83		(ovals).
84		The central program is <i>rpict</i>, which produces a picture from a scene
85		description.
86	<	<i>Rview</i> is a variation of rpict that computes and displays images
86	>	<i>Rvu</i> is a variation of rpict that computes and displays images
87		interactively, and rtrace computes single ray values.
88		Other programs (not shown) connect many of these elements together,
89		such as the executive programs
#	Line 797 \| Line 798 \| unless the line integrals consider enclosed geometry.
798
799		<dd>
800		Trans2 is the anisotropic version of <a HREF="#Trans">trans</a>.
801	<	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.
801	>	The string arguments are the same as for <a HREF="#Plastic2">plastic2</a>,
802	>	and the real arguments are the same as for trans but with an additional roughness value.
803
804		<pre>
805		mod trans2 id
#	Line 809 \| Line 811 \| unless the line integrals consider enclosed geometry.
811		<p>
812
813		<dt>
814	+	<a NAME="Ashik2">
815	+	<b>Ashik2</b>
816	+	</a>
817	+
818	+	<dd>
819	+	Ashik2 is the anisotropic reflectance model by Ashikhmin & Shirley.
820	+	The string arguments are the same as for <a HREF="#Plastic2">plastic2</a>, but the real
821	+	arguments have additional flexibility to specify the specular color.
822	+	Also, rather than roughness, specular power is used, which has no
823	+	physical meaning other than larger numbers are equivalent to a smoother
824	+	surface.
825	+	Unlike other material types, total reflectance is the sum of
826	+	diffuse and specular colors, and should be adjusted accordingly.
827	+	<pre>
828	+	mod ashik2 id
829	+	4+ ux uy uz funcfile transform
830	+	0
831	+	8 dred dgrn dblu sred sgrn sblu u-power v-power
832	+	</pre>
833	+
834	+	<p>
835	+
836	+	<dt>
837		<a NAME="Dielectric">
838		<b>Dielectric</b>
839		</a>
#	Line 1131 \| Line 1156 \| unless the line integrals consider enclosed geometry.
1156		<p>
1157
1158		<dt>
1159	+	<a NAME="aBSDF">
1160	+	<b>aBSDF</b>
1161	+	</a>
1162	+
1163	+	<dd>
1164	+	The aBSDF material is identical to the BSDF type with two
1165	+	important differences. First, proxy geometry is not
1166	+	supported, so there is no thickness parameter. Second, an
1167	+	aBSDF is assumed to have some specular through component
1168	+	(the ’a’ stands for "aperture"),
1169	+	which is treated specially during the direct calculation
1170	+	and when viewing the material. Based on the BSDF data, the
1171	+	coefficient of specular transmission is determined and used
1172	+	for modifying unscattered shadow and view rays.
1173	+
1174	+	<pre>
1175	+	mod aBSDF id
1176	+	5+ BSDFfile ux uy uz funcfile transform
1177	+	0
1178	+	0\|3\|6\|9
1179	+	rfdif gfdif bfdif
1180	+	rbdif gbdif bbdif
1181	+	rtdif gtdif btdif
1182	+	</pre>
1183	+
1184	+	<p>
1185	+	If a material has no specular transmitted component, it is
1186	+	much better to use the BSDF type with a zero thickness
1187	+	than to use aBSDF.
1188	+	<p>
1189	+
1190	+	<dt>
1191		<a NAME="Antimatter">
1192		<b>Antimatter</b>
1193		</a>
#	Line 1414 \| Line 1471 \| or:
1471		</h4>
1472
1473		A mixture is a blend of one or more materials or textures and patterns.
1474	+	Blended materials should not be light source types or virtual source types.
1475		The basic types are given below.
1476
1477		<p>
#	Line 1486 \| Line 1544 \| A mixfunc mixes two modifiers procedurally. It i
1544		arguments, the red, green and blue values
1545		corresponding to the pixel at (u,v).
1546
1489	–	</dl>
1547		<p>
1548
1549		<dt>
#	Line 1752 \| Line 1809 \| The details of this process are not important, but
1809		directs the use of a scene description.
1810		<ul>
1811		<li>
1812	<	<a NAME="rvu" HREF="../man_html/rvu.1.html"><b>Rview</b></a> is ray-tracing program for viewing a scene interactively.
1812	>	<a NAME="rvu" HREF="../man_html/rvu.1.html"><b>Rvu</b></a> is ray-tracing program for viewing a scene interactively.
1813		When the user specifies a new perspective, rvu quickly displays a rough image on the terminal,
1814		then progressively increases the resolution as the user looks on.
1815		He can select a particular section of the image to improve, or move to a different view and start over.
#	Line 1788 \| Line 1845 \| Pictures may be displayed directly under X11 using the
1845		or converted a standard image format using one of the following
1846		<b>translators</b>:
1847		<ul>
1848	<	<li> <b>Ra_avs</b>
1849	<	converts to and from AVS image format.
1793	<	<li> <a HREF="../man_html/ra_pict.1.html"><b>Ra_pict</b></a>
1794	<	converts to Macintosh 32-bit PICT2 format.
1848	>	<li> <a HREF="../man_html/ra_bmp.1.html"><b>Ra_bmp</b></a>
1849	>	converts to and from BMP image format.
1850		<li> <a HREF="../man_html/ra_ppm.1.html"><b>Ra_ppm</b></a>
1851		converts to and from Poskanzer Portable Pixmap formats.
1797	–	<li> <a HREF="../man_html/ra_pr.1.html"><b>Ra_pr</b></a>
1798	–	converts to and from Sun 8-bit rasterfile format.
1799	–	<li> <a HREF="../man_html/ra_pr24.1.html"><b>Ra_pr24</b></a>
1800	–	converts to and from Sun 24-bit rasterfile format.
1852		<li> <a HREF="../man_html/ra_ps.1.html"><b>Ra_ps</b></a>
1853		converts to PostScript color and greyscale formats.
1854		<li> <a HREF="../man_html/ra_rgbe.1.html"><b>Ra_rgbe</b></a>
#	Line 1823 \| Line 1874 \| or converted a standard image format using one of the
1874		<pre>
1875		The Radiance Software License, Version 1.0
1876
1877	<	Copyright (c) 1990 - 2010 The Regents of the University of California,
1877	>	Copyright (c) 1990 - 2021 The Regents of the University of California,
1878		through Lawrence Berkeley National Laboratory. All rights reserved.
1879
1880		Redistribution and use in source and binary forms, with or without
#	Line 1857 \| Line 1908 \| are met:
1908		nor may "Radiance" appear in their name, without prior written
1909		permission of Lawrence Berkeley National Laboratory.
1910
1911	<	THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
1911	>	THIS SOFTWARE IS PROVIDED ``AS IS" AND ANY EXPRESSED OR IMPLIED
1912		WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1913		OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
1914		DISCLAIMED. IN NO EVENT SHALL Lawrence Berkeley National Laboratory OR
#	Line 1896 \| Line 1947 \| Ecole Polytechnique Federale de Lausanne (EPFL Unive
1947		</h2>
1948		<p>
1949		<ul>
1950	+	<li>Wang, Taoning, Gregory Ward, Eleanor Lee,
1951	+	"<a href="https://authors.elsevier.com/a/1XQ0a1M7zGwT7v">Efficient
1952	+	modeling of optically-complex, non-coplanar exterior shading:
1953	+	Validation of matrix algebraic methods</a>"
1954	+	<em>Energy & Buildings</em>, vol. 174, pp. 464-83, Sept. 2018.
1955	+	<li>Lee, Eleanor S., David Geisler-Moroder, Gregory Ward,
1956	+	"<a href="https://eta.lbl.gov/sites/default/files/publications/solar_energy.pdf">Modeling
1957	+	the direct sun component in buildings using matrix
1958	+	algebraic approaches: Methods and
1959	+	validation</a>," <em>Solar Energy</em>,
1960	+	vol. 160, 15 January 2018, pp 380-395.
1961	+	<li>Narain, Rahul, Rachel A. Albert, Abdullah Bulbul,
1962	+	Gregory J. Ward, Marty Banks, James F. O'Brien,
1963	+	"<a href="http://graphics.berkeley.edu/papers/Narain-OPI-2015-08/index.html">Optimal
1964	+	Presentation of Imagery with Focus
1965	+	Cues on Multi-Plane Displays</a>,"
1966	+	<em>SIGGRAPH 2015</em>.
1967	+	<li>Ward, Greg, Murat Kurt, and Nicolas Bonneel,
1968	+	"<a href="papers/WMAM14_Tensor_Tree_Representation.pdf">Reducing
1969	+	Anisotropic BSDF Measurement to Common Practice</a>,"
1970	+	<em>Workshop on Material Appearance Modeling</em>, 2014.
1971	+	<li>Banks, Martin, Abdullah Bulbul, Rachel Albert, Rahul Narain,
1972	+	James F. O'Brien, Gregory Ward,
1973	+	"<a href="http://graphics.berkeley.edu/papers/Banks-TPO-2014-05/index.html">The
1974	+	Perception of Surface Material from Disparity and Focus Cues</a>,"
1975	+	<em>VSS 2014</em>.
1976	+	<li>McNeil, A., C.J. Jonsson, D. Appelfeld, G. Ward, E.S. Lee,
1977	+	"<a href="http://gaia.lbl.gov/btech/papers/4414.pdf">
1978	+	A validation of a ray-tracing tool used to generate
1979	+	bi-directional scattering distribution functions for
1980	+	complex fenestration systems</a>,"
1981	+	<em>Solar Energy</em>, 98, 404-14,
1982	+	November 2013.
1983	+	<li>Ward, G., R. Mistrick, E.S. Lee, A. McNeil, J. Jonsson,
1984	+	"<a href="http://gaia.lbl.gov/btech/papers/4414.pdf">Simulating
1985	+	the Daylight Performance of Complex Fenestration Systems
1986	+	Using Bidirectional Scattering Distribution Functions within
1987	+	Radiance</a>,"
1988	+	<em>Leukos</em>, 7(4)
1989	+	April 2011.
1990		<li>Cater, Kirsten, Alan Chalmers, Greg Ward,
1991		"<a href="http://www.anyhere.com/gward/papers/egsr2003.pdf">Detail to Attention:
1992		Exploiting Visual Tasks for Selective Rendering</a>,"
1993		<em>Eurographics Symposium
1994		on Rendering 2003</em>, June 2003.
1995		<li>Ward, Greg, Elena Eydelberg-Vileshin,
1996	<	``<a HREF="http://www.anyhere.com/gward/papers/egwr02/index.html">Picture Perfect RGB
1997	<	Rendering Using Spectral Prefiltering and Sharp Color Primaries</a>,''
1996	>	"<a HREF="http://www.anyhere.com/gward/papers/egwr02/index.html">Picture Perfect RGB
1997	>	Rendering Using Spectral Prefiltering and Sharp Color Primaries</a>,"
1998		Thirteenth Eurographics Workshop on Rendering (2002),
1999		P. Debevec and S. Gibson (Editors), June 2002.
2000		<li>Ward, Gregory,
2001	<	``<a HREF="http://www.anyhere.com/gward/papers/cic01.pdf">High Dynamic Range Imaging</a>,''
2001	>	"<a HREF="http://www.anyhere.com/gward/papers/cic01.pdf">High Dynamic Range Imaging</a>,"
2002		Proceedings of the Ninth Color Imaging Conference, November 2001.
2003		<li>Ward, Gregory and Maryann Simmons,
2004	<	``<a HREF="http://www.anyhere.com/gward/papers/tog99.pdf">
2004	>	"<a HREF="http://www.anyhere.com/gward/papers/tog99.pdf">
2005		The Holodeck Ray Cache: An Interactive Rendering System for Global Illumination in Nondiffuse
2006	<	Environments</a>,'' ACM Transactions on Graphics, 18(4):361-98, October 1999.
2007	<	<li>Larson, G.W., ``<a HREF="http://www.anyhere.com/gward/papers/ewp98.pdf">The Holodeck: A Parallel
2008	<	Ray-caching Rendering System</a>,'' Proceedings of the Second
2006	>	Environments</a>," ACM Transactions on Graphics, 18(4):361-98, October 1999.
2007	>	<li>Larson, G.W., "<a HREF="http://www.anyhere.com/gward/papers/ewp98.pdf">The Holodeck: A Parallel
2008	>	Ray-caching Rendering System</a>," Proceedings of the Second
2009		Eurographics Workshop on Parallel Graphics and Visualisation,
2010		September 1998.
2011		<li>Larson, G.W. and R.A. Shakespeare,
#	Line 1922 \| Line 2013 \| Ecole Polytechnique Federale de Lausanne (EPFL Unive
2013		the Art and Science of Lighting Visualization</em></a>,
2014		Morgan Kaufmann Publishers, 1998.
2015		<li>Larson, G.W., H. Rushmeier, C. Piatko,
2016	<	``<a HREF="http://radsite.lbl.gov/radiance/papers/lbnl39882/tonemap.pdf">A Visibility
2016	>	"<a HREF="http://radsite.lbl.gov/radiance/papers/lbnl39882/tonemap.pdf">A Visibility
2017		Matching Tone Reproduction Operator for
2018	<	High Dynamic Range Scenes</a>,'' LBNL Technical Report 39882,
2018	>	High Dynamic Range Scenes</a>," LBNL Technical Report 39882,
2019		January 1997.
2020	<	<li>Ward, G., ``<a HREF="http://radsite.lbl.gov/radiance/papers/erw95.1/paper.html">Making
2021	<	Global Illumination User-Friendly</a>,'' Sixth
2020	>	<li>Ward, G., "<a HREF="http://radsite.lbl.gov/radiance/papers/erw95.1/paper.html">Making
2021	>	Global Illumination User-Friendly</a>," Sixth
2022		Eurographics Workshop on Rendering, Springer-Verlag,
2023		Dublin, Ireland, June 1995.</li>
2024		<li>Rushmeier, H., G. Ward, C. Piatko, P. Sanders, B. Rust,
2025	<	``<a HREF="http://radsite.lbl.gov/mgf/compare.html">
2025	>	"<a HREF="http://radsite.lbl.gov/mgf/compare.html">
2026		Comparing Real and Synthetic Images: Some Ideas about
2027	<	Metrics</a>,'' Sixth Eurographics Workshop on Rendering,
2027	>	Metrics</a>," Sixth Eurographics Workshop on Rendering,
2028		Springer-Verlag, Dublin, Ireland, June 1995.</li>
2029	<	<li>Ward, G., ``<a HREF="http://radsite.lbl.gov/radiance/papers/sg94.1/paper.html">The RADIANCE
2030	<	Lighting Simulation and Rendering System</a>,'' <em>Computer
2029	>	<li>Ward, G., "<a HREF="http://radsite.lbl.gov/radiance/papers/sg94.1/paper.html">The RADIANCE
2030	>	Lighting Simulation and Rendering System</a>," <em>Computer
2031		Graphics</em>, July 1994.</li>
2032	<	<li>Rushmeier, H., G. Ward, ``<a HREF="http://radsite.lbl.gov/radiance/papers/sg94.2/energy.html">Energy
2033	<	Preserving Non-Linear Filters</a>,'' <em>Computer
2032	>	<li>Rushmeier, H., G. Ward, "<a HREF="http://radsite.lbl.gov/radiance/papers/sg94.2/energy.html">Energy
2033	>	Preserving Non-Linear Filters</a>," <em>Computer
2034		Graphics</em>, July 1994.</li>
2035	<	<li>Ward, G., ``A Contrast-Based Scalefactor for Luminance
2036	<	Display,'' <em>Graphics Gems IV</em>, Edited by Paul Heckbert,
2035	>	<li>Ward, G., "A Contrast-Based Scalefactor for Luminance
2036	>	Display," <em>Graphics Gems IV</em>, Edited by Paul Heckbert,
2037		Academic Press 1994.</li>
2038	<	<li>Ward, G., ``<a HREF="http://radsite.lbl.gov/radiance/papers/sg92/paper.html">Measuring and
2039	<	Modeling Anisotropic Reflection</a>,'' <em>Computer
2038	>	<li>Ward, G., "<a HREF="http://radsite.lbl.gov/radiance/papers/sg92/paper.html">Measuring and
2039	>	Modeling Anisotropic Reflection</a>," <em>Computer
2040		Graphics</em>, Vol. 26, No. 2, July 1992. </li>
2041	<	<li>Ward, G., P. Heckbert, ``<a HREF="http://radsite.lbl.gov/radiance/papers/erw92/paper.html">Irradiance
2042	<	Gradients</a>,'' Third Annual Eurographics Workshop on
2041	>	<li>Ward, G., P. Heckbert, "<a HREF="http://radsite.lbl.gov/radiance/papers/erw92/paper.html">Irradiance
2042	>	Gradients</a>," Third Annual Eurographics Workshop on
2043		Rendering, Springer-Verlag, May 1992. </li>
2044	<	<li>Ward, G., ``<a HREF="http://radsite.lbl.gov/radiance/papers/erw91/erw91.html">Adaptive Shadow
2045	<	Testing for Ray Tracing</a>'' Photorealistic Rendering in
2044	>	<li>Ward, G., "<a HREF="http://radsite.lbl.gov/radiance/papers/erw91/erw91.html">Adaptive Shadow
2045	>	Testing for Ray Tracing</a>" Photorealistic Rendering in
2046		Computer Graphics, proceedings of 1991 Eurographics
2047		Rendering Workshop, edited by P. Brunet and F.W. Jansen,
2048		Springer-Verlag. </li>
2049	<	<li>Ward, G., ``Visualization,'' <em>Lighting Design and
2049	>	<li>Ward, G., "Visualization," <em>Lighting Design and
2050		Application</em>, Vol. 20, No. 6, June 1990. </li>
2051	<	<li>Ward, G., F. Rubinstein, R. Clear, ``<a HREF="http://radsite.lbl.gov/radiance/papers/sg88/paper.html">A Ray Tracing Solution for
2052	<	Diffuse Interreflection</a>,'' <em>Computer Graphics</em>,
2051	>	<li>Ward, G., F. Rubinstein, R. Clear, "<a HREF="http://radsite.lbl.gov/radiance/papers/sg88/paper.html">A Ray Tracing Solution for
2052	>	Diffuse Interreflection</a>," <em>Computer Graphics</em>,
2053		Vol. 22, No. 4, August 1988. </li>
2054	<	<li>Ward, G., F. Rubinstein, ``A New Technique for Computer
2055	<	Simulation of Illuminated Spaces,'' <em>Journal of the
2054	>	<li>Ward, G., F. Rubinstein, "A New Technique for Computer
2055	>	Simulation of Illuminated Spaces," <em>Journal of the
2056		Illuminating Engineering Society</em>, Vol. 17, No. 1,
2057		Winter 1988. </li>
2058		</ul>

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Comparing ray/doc/ray.html (file contents): Revision 1.14 by greg, Wed Jun 22 00:12:43 2011 UTC vs. Revision 1.31 by greg, Thu May 11 17:18:39 2023 UTC

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Comparing ray/doc/ray.html (file contents):
Revision 1.14 by greg, Wed Jun 22 00:12:43 2011 UTC vs.
Revision 1.31 by greg, Thu May 11 17:18:39 2023 UTC