Difference between revisions of "User:Hth2"
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My name is '''H.T. Humphrey''' and I am a freshman at Duke, Class of 2013. I am a resident of Alspaugh and an undefeated champion at ''Ping-Pong''. I am an animated person! Also, I'm a huge fan of Quentin Tarantino films and music spawning from '''''The Mars Volta'''''. I am acquiring programming skills at an exponential rate!!! | My name is '''H.T. Humphrey''' and I am a freshman at Duke, Class of 2013. I am a resident of Alspaugh and an undefeated champion at ''Ping-Pong''. I am an animated person! Also, I'm a huge fan of Quentin Tarantino films and music spawning from '''''The Mars Volta'''''. I am acquiring programming skills at an exponential rate!!! | ||
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+ | ===Grand Challenges and Scientific Interests=== | ||
+ | The task of David Adler is almost insurmountable, in attempting the reverse engineering of the brain of a fruitfly. The amount of time spent in collecting the raw data, along with the task of effectively storing the raw data for this tasks are daunting. After some patience in waiting for all the microscopic slices of the brain, Adler still has to analyze the ''extremely'' intricate inner-workings of the brain. | ||
+ | [http://www.spectrum.ieee.org/biomedical/ethics/reverse-engineering-the-brain], Sally Adee, IEEE Spectrum, June 2008, accessed 13 September 2009 (Grand Challenges) |
Latest revision as of 03:57, 14 September 2009
H.T. Humphrey
My name is H.T. Humphrey and I am a freshman at Duke, Class of 2013. I am a resident of Alspaugh and an undefeated champion at Ping-Pong. I am an animated person! Also, I'm a huge fan of Quentin Tarantino films and music spawning from The Mars Volta. I am acquiring programming skills at an exponential rate!!!
Grand Challenges and Scientific Interests
The task of David Adler is almost insurmountable, in attempting the reverse engineering of the brain of a fruitfly. The amount of time spent in collecting the raw data, along with the task of effectively storing the raw data for this tasks are daunting. After some patience in waiting for all the microscopic slices of the brain, Adler still has to analyze the extremely intricate inner-workings of the brain. [1], Sally Adee, IEEE Spectrum, June 2008, accessed 13 September 2009 (Grand Challenges)