http:^^www.tc.cornell.edu^visualization^animations^animations.html

This data set contains WWW-pages collected from computer science departments of various universities

Date: Sun, 24 Nov 1996 23:10:23 GMT
Server: NCSA/1.5
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Last-modified: Wed, 04 Sep 1996 16:37:45 GMT
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<title>CTC - Visualization - Animations</title>
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<!WA0><!WA0><!WA0><!WA0><!WA0><!WA0><!WA0><!WA0><IMG SRC="http://www.tc.cornell.edu:/Logos/ctc.logo.sm.gif"> 
Cornell Theory Center
<hr>
</H2>

<H2>Scientific Images and Animation
<p>
See also the CTC 
<!WA1><!WA1><!WA1><!WA1><!WA1><!WA1><!WA1><!WA1><a href="http://www.tc.cornell.edu/er96/science96/Explorations/4push/index.html"> Explorations </a>page.
</H2>
<hr>

<b> <!WA2><!WA2><!WA2><!WA2><!WA2><!WA2><!WA2><!WA2><img src="http://www.tc.cornell.edu/Visualization/Staff/bruce/images/Farid.frame165.smaller.jpg" 
align=left hspace=5>
 <!WA3><!WA3><!WA3><!WA3><!WA3><!WA3><!WA3><!WA3><a href="http://www.tc.cornell.edu/Visualization/Staff/bruce/FaridAug96.html"> 
A dynamic brittle-ductile transition
in a simulation of 100 million atoms. </b> <br> </a>
A simulation of the dynamical failure of 3D notched solids under
 tension at the atomistic level using classical molecular dynamics and
system sizes from 10 to more than 100 million atoms. 
(Research by Farid Abraham, IBM Almaden Research Center, 
Visualization by Bruce Land and David Schneider.)
<br clear=left> 
<p>
<b>
<!WA4><!WA4><!WA4><!WA4><!WA4><!WA4><!WA4><!WA4><IMG SRC="http://www.tc.cornell.edu/Visualization/animations/lungs.small.gif"
 align=left hspace=5>
<!WA5><!WA5><!WA5><!WA5><!WA5><!WA5><!WA5><!WA5><A HREF="http://www.tc.cornell.edu/er96/ff03summer/ff04lungs.html">
Diagnosis of Emphysema and Lung Cancer using 3D techniques. </a>  <br>
</b> 
Modern radiologic techniques, particularly computed tomography (CT) and 
magnetic resonance (MR) imaging, acquire more data than are routinely displayed
in diagnostic images. Supercomputers can be
very helpful in processing and presenting this information.
 Image analysis used on
appropriate images in conjunction with representative 
patient databases will permit the
development of clinical analysis and decision support 
systems and will form an integral part of the
diagnostic process in the future.
(Research by Claudia I. Henschke and David F. Yankelevitz, Cornell University 
Medical College, Visualization by Catherine Devine.) 
<br clear=left>
<p>

<b>
<!WA6><!WA6><!WA6><!WA6><!WA6><!WA6><!WA6><!WA6><IMG SRC="http://www.tc.cornell.edu/Visualization/animations/forest.gif"
 align=left hspace=5>
<!WA7><!WA7><!WA7><!WA7><!WA7><!WA7><!WA7><!WA7><A HREF="http://www.tc.cornell.edu/~devine/forest.html">
SORTIE Simulation: A Model of Forest Growth</a>  <br>
</b> A simulation of 1000 years of forest growth under different 
conditions.
(Research by Douglas Deutschman and Linda Buttel at Cornell and Simon Levin  
at Princeton University, Visualization by Catherine Devine.) 
<br clear=left>
<p>

<b>
<!WA8><!WA8><!WA8><!WA8><!WA8><!WA8><!WA8><!WA8><IMG SRC="http://www.tc.cornell.edu/Visualization/images/ache.thumb.gif"
 align=left hspace=5>
<!WA9><!WA9><!WA9><!WA9><!WA9><!WA9><!WA9><!WA9><A HREF="http://www.tc.cornell.edu/Visualization/Staff/richard/NIH/NIH.index.html">
Molecular Visualization</a>  <br>
</b>
A variety of research projects focusing on molecular visualization. Projects
range from imaging of chromosomes in petunias, to the mechanism of 
Acetylcholinesterase, to mechanisms of Chagas Disease. (Visualization by
Richard Gillilan).
<br clear=left>
<p>

<b>
<!WA10><!WA10><!WA10><!WA10><!WA10><!WA10><!WA10><!WA10><IMG SRC="http://www.tc.cornell.edu/Visualization/animations/fabric.small.gif"  align=left hspace=5>
<!WA11><!WA11><!WA11><!WA11><!WA11><!WA11><!WA11><!WA11><A HREF="http://www.tc.cornell.edu/Visualization/animations/Fabric/">
A Physically-Based Model of Fabric Drape</a>  <br>
</b>
Drape, the final shape a fabric assumes when laid over an object, is
an important characteristic of fabric for both aesthetic and
engineering applications.  (Research by Bijian Chen and Muthu
Govindaraj, Department of Textiles and Apparel, Cornell University.
Visualization by Catherine Devine) 
<br clear=left>
<p>

<b>
<!WA12><!WA12><!WA12><!WA12><!WA12><!WA12><!WA12><!WA12><IMG SRC="http://www.tc.cornell.edu/Visualization/animations/pluck.gif"  align=left hspace=5>
<!WA13><!WA13><!WA13><!WA13><!WA13><!WA13><!WA13><!WA13><A HREF="http://www.tc.cornell.edu/~bruce/mpeg/pluck.mpg">
Isospectral drums</a>  <br>
</b>
Recently it was proved that there exist nonisomeric planar regions that have 
identical Laplace spectra. That is, one cannot "hear the shape of a drum." For
more information see technical report  
<!WA14><!WA14><!WA14><!WA14><!WA14><!WA14><!WA14><!WA14><a href="http://www.tc.cornell.edu/Research/Tech.Reports/tr.abs/TR209.txt"> CTC95TR209 </a>.
(Research by Toby Driscoll, Center for Applied Math, Cornell.
 Visualization by Bruce Land.) 
<br clear=left>
<p>

<b>
<!WA15><!WA15><!WA15><!WA15><!WA15><!WA15><!WA15><!WA15><IMG SRC="http://www.tc.cornell.edu/Visualization/contrib/cs490-94to95/gifs/small.subj_12.gif" 
 align=left hspace=5>
<!WA16><!WA16><!WA16><!WA16><!WA16><!WA16><!WA16><!WA16><A HREF="http://www.tc.cornell.edu/Visualization/contrib/cs490-94to95/simonetta/">
Cornell/Honeywell Keyboard Systems Study </a> <br></b>
 Two-dimension angular
deviation data of wrist motion, obtained with an exoskeleton measuring glove worn by human
subjects using keyboards, had previously been obtained by Hedge. While human factors
researchers had long used such measuring devices to obtain wrist motion data, this data had not
previously been visualized. 
<br clear=left>
<p>

<b>
<!WA17><!WA17><!WA17><!WA17><!WA17><!WA17><!WA17><!WA17><IMG SRC="http://www.tc.cornell.edu/~devine/images/hokkaido.jpg" 
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<!WA18><!WA18><!WA18><!WA18><!WA18><!WA18><!WA18><!WA18><A HREF="http://www.tc.cornell.edu/~devine/tsunami.html">
Tsunami simulations </a> <br></b>
Tusnami are caused by underwater earthquakes which start waves propagating
rapidly across the ocean. Simulations help to understand and predict these
large, often dangerous, phenomena.
(Research by Phil Liu, Department of Civil 
and Environmental Engineering, Cornell
University; Visualization by Catherine Devine.)
 
<br clear=left>
<p>

<hr>
<b> <!WA19><!WA19><!WA19><!WA19><!WA19><!WA19><!WA19><!WA19><a href="http://www.tc.cornell.edu/Visualization/animations/animations.old.html">
Past Visualization Examples </a> </b>

<hr>

<ul>
<li>General information about <!WA20><!WA20><!WA20><!WA20><!WA20><!WA20><!WA20><!WA20><A HREF="http://www.tc.cornell.edu/Visualization/">Visualization at the
Theory Center</a> is also available online.<P>
</ul>
&#169; <!WA21><!WA21><!WA21><!WA21><!WA21><!WA21><!WA21><!WA21><A HREF="http://www.tc.cornell.edu/ctcCopyright.html"><i>Copyright Statement</I></A>

<! Modified by Bruce Land April 96.  
Changes:
	Moved Hilo so all the animations are together at the end.
	Added the word "animation" so users would be aware that they're
		not just linking to another html page.

Moved link to video order to this page. BRL 12/19/95
>