Difference between revisions of "User:Alixouazana"

From PrattWiki
Jump to navigation Jump to search
 
(5 intermediate revisions by the same user not shown)
Line 8: Line 8:
  
  
 +
Article on a Grand Challenge of Engineering:
  
  [http://http://www.cnn.com/2008/TECH/08/18/cyber.warfare/index.html?iref=newssearch U.S. at risk of cyberattacks, experts say], Brandon Griggs, CNN, updated 18 August 2008, 9/18/17 (Secure Cyberspace)
+
  [http://www.cnn.com/2008/TECH/08/18/cyber.warfare/index.html?iref=newssearch U.S. at risk of cyberattacks, experts say], Brandon Griggs, CNN, updated 18 August 2008, accessed 18 September 2017 (Secure Cyberspace)
 +
 
 +
Favorite MATLAB demonstration: The Travelling Salesman Problem
 +
 
 +
The Traveling Salesman problem is able to solve how to find the shortest path through a set of different cities. This is my favorite demonstration because it is able to load data of different cities, check if cities are inside a specific border, and even draw that border. After calculating the number of possible trips, the trip distances, and the number of subtours, it returns a map with borders, cities (stops), but mostly with the path that answers the problem. I find it incredible that such a program can be run on MATLAB.

Latest revision as of 04:20, 19 September 2017

Alix Ouazana

17 years old

From Paris, France

Currently a Student at Duke University in the Pratt School of Engineering and part of the Class of 2021


Article on a Grand Challenge of Engineering:

U.S. at risk of cyberattacks, experts say, Brandon Griggs, CNN, updated 18 August 2008, accessed 18 September 2017 (Secure Cyberspace)

Favorite MATLAB demonstration: The Travelling Salesman Problem

The Traveling Salesman problem is able to solve how to find the shortest path through a set of different cities. This is my favorite demonstration because it is able to load data of different cities, check if cities are inside a specific border, and even draw that border. After calculating the number of possible trips, the trip distances, and the number of subtours, it returns a map with borders, cities (stops), but mostly with the path that answers the problem. I find it incredible that such a program can be run on MATLAB.