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List: bioclusters
Subject: RE: [Bioclusters] Bio-Visualization: Porous-Solid Geometry
From: "Kathleen Erickson" <kathleen () massivelyparallel ! com>
Date: 2006-04-25 18:00:27
Message-ID: 20060425180020.BF026214004 () primary ! bioinformatics ! org
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Hi Nathaniel:
We can play. Send papers.
Kathleen
kathleen@massivelyparallel.com
_____
From: Nathaniel Bobbitt [mailto:flautabaja@hotmail.com]
Sent: Tuesday, April 25, 2006 8:15 AM
To: bioclusters@bioinformatics.org
Subject: [Bioclusters] Bio-Visualization: Porous-Solid Geometry
Hello,
I am looking for researchers interested in simulation and modeling
techniques that revise our basic understanding of 3-D and geometry in life
sciences: 1. protein visualization, 2. diagrams of cellular and biochemical
representations.
I use a porous-solid geometry. I wonder if there are others with like
interests?
My work is geared towards the representation of: 1. folding, docking, 2.
intramolecular relationships 3. practices for the collection and
visualization of screening techniques.
I am looking for academics or 3-d party software developers to collaobrate
with. Please let me know if you or others might be interested in the review
of a position paper based on three poster papers:
Expressivity: Steps for the optical transformation of the envisioning of
science
1. What are the visual barriers in graphic arts for doing scientific
visualization?
2. How can optical behaviors improve the expressiveness of a visualization?
Computation: Physical steps toward the envisioning of science
1. How can numerical control, shape a boundary system while still showing
the visualization of complex relationships?
2. Why trap complexity before being given datasets?
Plasticity: Trapping Geometric motives in a 4-D Fractal Space
1. What would a 4-D fractal space mean in the mapping of: barriers, hidden,
and emergent patterns in organic forms: folded, twisted and coiling?
2. Where to go to find new geometric primitives for 3-D fractals?
I look forward to your reply.
Nathaniel Bobbitt
nabslab.com
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<DIV dir=ltr align=left><SPAN class=176275517-25042006><FONT
face="Comic Sans MS" size=2>Hi Nathaniel:</FONT></SPAN></DIV>
<DIV dir=ltr align=left><SPAN class=176275517-25042006><FONT
face="Comic Sans MS" size=2></FONT></SPAN> </DIV>
<DIV dir=ltr align=left><SPAN class=176275517-25042006><FONT
face="Comic Sans MS" size=2>We can play. Send papers.</FONT></SPAN></DIV>
<DIV><FONT face="Comic Sans MS" size=2></FONT> </DIV>
<DIV><SPAN class=176275517-25042006><FONT face="Comic Sans MS"
size=2>Kathleen</FONT></SPAN></DIV><SPAN class=176275517-25042006></SPAN><FONT
face="Comic Sans MS"><FONT size=2>kathleen@massivelyparallel.com<SPAN
class=176275517-25042006></SPAN></FONT></FONT><BR>
<DIV class=OutlookMessageHeader lang=en-us dir=ltr align=left>
<HR tabIndex=-1>
<FONT face=Tahoma size=2><B>From:</B> Nathaniel Bobbitt
[mailto:flautabaja@hotmail.com] <BR><B>Sent:</B> Tuesday, April 25, 2006 8:15
AM<BR><B>To:</B> bioclusters@bioinformatics.org<BR><B>Subject:</B> [Bioclusters]
Bio-Visualization: Porous-Solid Geometry<BR></FONT><BR></DIV>
<DIV></DIV>
<DIV>
<DIV class=RTE>
<DIV class=RTE>Hello,</DIV>
<DIV class=RTE> </DIV>
<DIV class=RTE>I am looking for researchers interested in simulation and
modeling techniques that revise our basic understanding of 3-D and
geometry in life sciences: 1. protein visualization, 2. diagrams of
cellular and biochemical representations.</DIV>
<DIV class=RTE> </DIV>
<DIV class=RTE>I use a porous-solid geometry. I wonder if there are others with
like interests?</DIV>
<DIV class=RTE> </DIV>
<DIV class=RTE>My work is geared towards the representation of: 1. folding,
docking, 2. intramolecular relationships 3. practices for the collection
and visualization of screening techniques.</DIV>
<DIV class=RTE> </DIV>
<DIV class=RTE>I am looking for academics or 3-d party software
developers to collaobrate with. Please let me know if you or others might
be interested in the review of a position paper based on three poster
papers:</DIV>
<DIV class=RTE>
<DIV class=RTE> </DIV>
<DIV class=RTE> </DIV>
<DIV class=RTE>
<P><STRONG><U>Expressivity: Steps for the optical transformation of the
envisioning of science</U></STRONG></P>
<P>1. What are the visual barriers in graphic arts for doing scientific
visualization?</P>
<P>2. How can optical behaviors improve the expressiveness of a
visualization?</P>
<P><U><STRONG>Computation: Physical steps toward the envisioning of
science</STRONG></U></P>
<P>1. How can numerical control, shape a boundary system while still showing the
visualization of complex relationships?</P>
<P>2. Why trap complexity before being given datasets?</P>
<P><STRONG><U>Plasticity: Trapping Geometric motives in a 4-D Fractal
Space</U></STRONG></P>
<P>1. What would a 4-D fractal space mean in the mapping of: barriers, hidden,
and emergent patterns in organic forms: folded, twisted and coiling?</P>
<P>2. Where to go to find new geometric primitives for 3-D fractals?</P>
<P>I look forward to your reply.</P>
<P>Nathaniel Bobbitt</P>
<P>nabslab.com</P></DIV></DIV></DIV></DIV></BODY></HTML>
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