Difference between revisions of "User:Jma69"
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[http://www.genengnews.com/gen-articles/making-personalized-medicine-a-reality/2316/ Making Personalized Medicine a Reality],Lisa A. Haile, Genetic Engineering & Biotechnology News, updated 1 January 2008, accessed 5 September 2012 | [http://www.genengnews.com/gen-articles/making-personalized-medicine-a-reality/2316/ Making Personalized Medicine a Reality],Lisa A. Haile, Genetic Engineering & Biotechnology News, updated 1 January 2008, accessed 5 September 2012 | ||
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| + | My favorite Matlab Demo is the Traveling Salesman. At first, this title conjured images of Willy Loman, the protagonist of Arthur Miller's "Death of a Salesman." Alas, this was not the topic of the demo. Instead, this demo shows how matlab calculates the shortest closed-circuit path between a given set of points (or travel itinerary across a certain set of cities). After setting the amount of cities/points in the circuit, one gets to physically watch matlab cycle through the possibilities and slowly refine its answer. In the end, the answer is always a polygon (the circuit never crosses itself), which I found particularly insightful. | ||
Latest revision as of 04:20, 6 September 2012
Hello, everybody. My name is Jason. I'm from Miami Beach, FL and am a huge sports fan, so I love my Heat, Dolphins, and Marlins. I live in Blackwell. I'm thinking BME, but who knows?
Here's a cool article about personalized medicine:
Making Personalized Medicine a Reality,Lisa A. Haile, Genetic Engineering & Biotechnology News, updated 1 January 2008, accessed 5 September 2012
My favorite Matlab Demo is the Traveling Salesman. At first, this title conjured images of Willy Loman, the protagonist of Arthur Miller's "Death of a Salesman." Alas, this was not the topic of the demo. Instead, this demo shows how matlab calculates the shortest closed-circuit path between a given set of points (or travel itinerary across a certain set of cities). After setting the amount of cities/points in the circuit, one gets to physically watch matlab cycle through the possibilities and slowly refine its answer. In the end, the answer is always a polygon (the circuit never crosses itself), which I found particularly insightful.
