Difference between revisions of "User:Dml30"
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==Grand Challenges Article (Assignment #1)== | ==Grand Challenges Article (Assignment #1)== | ||
[http://spectrum.ieee.org/biomedical/ethics/reverse-engineering-the-brain Reverse Engineering the Brain], Sally Adee, Institute of Electrical and Electronic Engineers, created June 2008, accessed September 9 2012 (Reverse Engineering the Brain) | [http://spectrum.ieee.org/biomedical/ethics/reverse-engineering-the-brain Reverse Engineering the Brain], Sally Adee, Institute of Electrical and Electronic Engineers, created June 2008, accessed September 9 2012 (Reverse Engineering the Brain) | ||
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| + | ==MATLAB Demo (Assignment #2)== | ||
| + | The most interesting MATLAB demo I read was entitled "Creating Mesh and Surface Plots." It seems like MATLAB offers an especially easy-to-use, high-quality 3D graphing function, of which I hope to make extensive use. The really interesting part, I suppose, is that the bioinformaticians from the lab I worked in this summer talked a lot about the usefulness of knowing how to represent biological systems graphically, which got me wishing that I could learn to use the sorts of programs I'm apparently working with now. | ||
Latest revision as of 00:25, 10 September 2012
Contents
About Me
I am a student at Duke University, majoring in Biomedical Engineering and possibly minoring in Computer Science. I am currently enrolled in Dr. Gustafson's EGR103 class.
Name Pronunciation
David Levy (LEE-vee)
Grand Challenges Article (Assignment #1)
Reverse Engineering the Brain, Sally Adee, Institute of Electrical and Electronic Engineers, created June 2008, accessed September 9 2012 (Reverse Engineering the Brain)
MATLAB Demo (Assignment #2)
The most interesting MATLAB demo I read was entitled "Creating Mesh and Surface Plots." It seems like MATLAB offers an especially easy-to-use, high-quality 3D graphing function, of which I hope to make extensive use. The really interesting part, I suppose, is that the bioinformaticians from the lab I worked in this summer talked a lot about the usefulness of knowing how to represent biological systems graphically, which got me wishing that I could learn to use the sorts of programs I'm apparently working with now.
