@inproceedings{porter1984compositing,
title={Compositing digital images},
author={Porter, Thomas and Duff, Tom},
- booktitle={ACM Siggraph Computer Graphics},
+ booktitle={ACM SIGGRAPH Computer Graphics},
volume={18},
number={3},
pages={253--259},
publisher={IBM Corp.}
}
-
+% Basically my favourite thing on triangle rasterization.
+% There are older ones, but this one makes sense.
+@misc{giesen2013triangle,
+ title={Triangle rasterization in practice},
+ author={Giesen, Fabien},
+ year={2013},
+ journal={The ryg blog},
+ type={Blog},
+ number={February 8},
+ howpublished={\url{http://fgiesen.wordpress.com/2013/02/08/triangle-rasterization-in-practice/}}
+}
+
+% A paper on polygon rasterization. Probably should find a nice textbook on
+% this.
+@article{pineda1988parallel,
+ title={A parallel algorthim for polygon rasterization},
+ author={Pineda, Juan},
+ journal={ACM Computer Graphics},
+ year={1988},
+ volume={22},
+ number={4},
+ pages={17--20},
+ publisher={ACM}
+}
%%%%%%%%%%%%%%%%%%%%%%%
% Floating-pt Precision
organization={IEEE}
}
+@article{ieee754std1985,
+ journal={{ANSI}/{IEEE} Std 754-1985},
+ title={{IEEE} Standard for Binary Floating-Point Arithmetic},
+ year={1985},
+}
+
+@article{ieee754std2008,
+ journal={{IEEE} Std 754-2008},
+ title={{IEEE} Standard for Floating-Point Arithmetic},
+ year={2008},
+ month={Aug},
+ pages={1-70},
+}
+
+
+
%%%%%%%%%%%%%%%%%%%%%%%%
% GPU-y Stuff
%%%%%%%%%%%%%%%%%%%%%%%%
+% OpenGL 4.4 (core profile) spec.
+% The latest OpenGL spec.
+% See: http://www.opengl.org/registry/doc/glspec44.core.pdf
+@book{openglspec,
+ title={The {OpenGL}\textregistered Graphics System: A Specification},
+ author={Segal, Mark and Akely, Kurt and Leech, Jon},
+ year={2014},
+ publisher={The Kronos Group, Inc},
+ url={http://www.opengl.org/registry/doc/glspec44.core.pdf}
+}
+
% The valve paper on using signed distance fields, scaling them and then alpha testing
% them to have a smooth, defined boundary for "vector"-like effects.
% Also talks of using several channels in the image and running boolean operations on them
@inproceedings{green2007improved,
title={Improved alpha-tested magnification for vector textures and special effects},
author={Green, Chris},
- booktitle={ACM SIGGRAPH 2007 courses},
+ booktitle={{ACM} {SIGGRAPH} 2007 courses},
pages={9--18},
year={2007},
organization={ACM}
% Split texture into a grid/quadtree, have each element represented by a set of cubic equations, combined CSG style.
% Need to read this further to understand some of the nuance, though I expect GLyphy does this better?
@techreport{ray2005vector,
- title={Vector texture maps on the GPU},
+ title={Vector texture maps on the {GPU}},
author={Ray, Nicolas and Cavin, Xavier and L{\'e}vy, Bruno},
year={2005},
institution={Technical Report ALICE-TR-05-003}
@article{loop2007rendering,
title={Rendering vector art on the GPU},
author={Loop, Charles and Blinn, Jim},
- journal={GPU gems},
+ journal={{GPU} gems},
volume={3},
pages={543--562},
year={2007}
% See Zach Rusin's blog post comparing it to Qt's SVG renderer.
% http://zrusin.blogspot.com.au/2011/09/nv-path-rendering.html
@article{kilgard2012gpu,
- title={GPU-accelerated path rendering},
+ title={{GPU}-accelerated path rendering},
author={Kilgard, Mark J and Bolz, Jeff},
- journal={ACM Transactions on Graphics (TOG)},
+ journal={{ACM} Transactions on Graphics (TOG)},
volume={31},
number={6},
pages={172},
}
% An extension to the above, detailing the use of the extension, rather than the way it is implemented.
@article{kilgard300programming,
- title={Programming with NV path rendering: An Annex to the SIGGRAPH paper GPU-accelerated Path Rendering},
+ title={Programming with {NV} path rendering: An Annex to the {SIGGRAPH} paper {GPU}-accelerated Path Rendering},
author={Kilgard, Mark J},
journal={heart},
volume={300},
% OpenVG is an opengl-ish API for vector graphics.
% More based around SVG than postscript, but not bad.
@article{rice2008openvg,
- title={OpenVG Specification, version 1.1},
+ title={{OpenVG} Specification, version 1.1},
author={Rice, Daniel and Simpson, RJ},
journal={Khronos Group},
year={2008}
% Implementing OpenVG using OpenGL ES 1. Pretty high-level overview.
% Basically boiled down to "we tesselated to get curves, and then used textures for fill"
@inproceedings{oh2007implementation,
- title={Implementation of OpenVG 1.0 using OpenGL ES},
+ title={Implementation of {OpenVG} 1.0 using {OpenGL} {ES}},
author={Oh, Aekyung and Sung, Hyunchan and Lee, Hwanyong and Kim, Kujin and Baek, Nakhoon},
booktitle={Proceedings of the 9th international conference on Human computer interaction with mobile devices and services},
pages={326--328},
% Implementing the OpenVG paint modes using GLES2 shaders.
% This is all pretty simple stuff.
@inproceedings{robart2009openvg,
- title={OpenVG paint subsystem over openGL ES shaders},
+ title={{OpenVG} paint subsystem over {OpenGL} {ES} shaders},
author={Robart, Mathieu},
booktitle={Consumer Electronics, 2009. ICCE'09. Digest of Technical Papers International Conference on},
pages={1--2},
publisher={Springer}
}
+%BSP trees
+@inproceedings{fuchs1980onvisible,
+ author = {Fuchs, Henry and Kedem, Zvi M. and Naylor, Bruce F.},
+ title = {On Visible Surface Generation by a Priori Tree Structures},
+ booktitle = {Proceedings of the 7th Annual Conference on Computer Graphics and Interactive Techniques},
+ series = {SIGGRAPH '80},
+ year = {1980},
+ isbn = {0-89791-021-4},
+ location = {Seattle, Washington, USA},
+ pages = {124--133},
+ numpages = {10},
+ url = {http://doi.acm.org/10.1145/800250.807481},
+ doi = {10.1145/800250.807481},
+ acmid = {807481},
+ publisher = {ACM},
+ address = {New York, NY, USA},
+}
+
+% KD-tree paper
+@article{bentley1975multidimensional,
+ author = {Bentley, Jon Louis},
+ title = {Multidimensional Binary Search Trees Used for Associative Searching},
+ journal = {Commun. ACM},
+ issue_date = {Sept. 1975},
+ volume = {18},
+ number = {9},
+ month = sep,
+ year = {1975},
+ issn = {0001-0782},
+ pages = {509--517},
+ numpages = {9},
+ url = {http://doi.acm.org/10.1145/361002.361007},
+ doi = {10.1145/361002.361007},
+ acmid = {361007},
+ publisher = {ACM},
+ address = {New York, NY, USA},
+ keywords = {associative retrieval, attribute, binary search trees, binary tree insertion, information retrieval system, intersection queries, key, nearest neighbor queries, partial match queries},
+}
+
% Basic overview of PDF and how it is awesome.
% This doesn't seem like a major revelation for 2002
Keywords = {PDF (Computer file format), FILE organization (Computer science), ELECTRONIC data processing},
Number = {1},
Pages = {59 - 63},
- Title = {Portable Document Format (PDF) -- Finally, a Universal Document Exchange Technology.},
+ Title = {Portable Document Format ({PDF}) -- Finally, a Universal Document Exchange Technology.},
Volume = {28},
URL = {http://search.ebscohost.com/login.aspx?direct=true&db=aph&AN=11512377&site=ehost-live},
Year = {2002},
@article{kahan2007wrong,
author = "W Kahan",
title = "Why is Floating-Point Computation so Hard to Debug when it Goes Wrong?",
- howpublished = "\url{http://www.cs.berkeley.edu/~wkahan/WrongR.pdf},
+ howpublished = "\url{http://www.cs.berkeley.edu/~wkahan/WrongR.pdf}",
year = 2007,
month = March
}
howpublished = "\url{http://www.cs.berkeley.edu/~wkahan/}"
}
+@book{computergraphics2,
+ author = "Donald Hearn and M Pauline Baker",
+ title = "Computer Graphics",
+ edition = 2,
+ year = 1997,
+ publisher = "Prentice Hall, Inc",
+ address = "Upper Saddle River, New Jersey 07458, USA"
+}
+
+@ARTICLE{bresenham1996pixel,
+author={Bresenham, J.},
+journal={Computer Graphics and Applications, IEEE},
+title={Pixel-processing fundamentals},
+year={1996},
+month={Jan},
+volume={16},
+number={1},
+pages={74-82},
+keywords={approximation theory;computer graphics;computer driven raster displays;edge drawing algorithms;explicit reference model;integer arithmetic algorithm;line drawing algorithms;line rastering;objective function;pixel processing fundamentals;pixel space basics;pixel-processing fundamentals;raster approximation;systematic rules;unintentionally fuzzy assumptions;Approximation algorithms;Cities and towns;Color;Computer displays;Layout;Lifting equipment;Painting;Tutorial;Visual effects;Yarn},
+doi={10.1109/38.481626},
+ISSN={0272-1716},}
+
+% It's a series of blog posts, don't judge me
+% Also don't look at the rest of the blog, it's strange...
+@misc{elias2000graphics,
+ title = "Graphics",
+ author = "Hugo Elias",
+ howpublished = {\url{http://freespace.virgin.net/hugo.elias/graphics/x\_main.htm}},
+ abstract = "This page explains how to draw graphics onto (mostly) Raster display systems. A very small amount could possibly be relevant to vector displays, but who uses those any more?"
+}
+
+@article{wu1991anefficient,
+ author = {Wu, Xiaolin},
+ title = {An Efficient Antialiasing Technique},
+ journal = {SIGGRAPH Comput. Graph.},
+ issue_date = {July 1991},
+ volume = {25},
+ number = {4},
+ month = jul,
+ year = {1991},
+ issn = {0097-8930},
+ pages = {143--152},
+ numpages = {10},
+ url = {http://doi.acm.org.ezproxy.library.uwa.edu.au/10.1145/127719.122734},
+ doi = {10.1145/127719.122734},
+ acmid = {122734},
+ publisher = {ACM},
+ address = {New York, NY, USA},
+ keywords = {antialiasing, convolution, curve digitization, digital geometry},
+}
+
+
git.ucc.asn.au / ipdf / documents.git / blobdiff
UCC git Repository :: git.ucc.asn.au