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There are n points in the 2D plane. A robot wants to visit all of them but can only move horizontally or vertically. How should it visit all of them so that the total distance it covers is minimal?

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1 Answer 1

This is the Travelling Salesman Problem where the distance between each pair of points is |y2-y1|+|x2-x1| (called Rectilinear distance or Manhattan distance). It's NP-hard which basically means that there is no known efficient solution.

Methods to solve it on Wikipedia.

The simplest algorithm is a naive brute force search, where you calculate the distance for every possible permutation of the points and find the minimum. This has a running time of O(n!). This will work for up to about 10 points, but it will very quickly become too slow for larger numbers of points.

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Are you sure the distance between pair of points is |y2-y1|+|x2-x1|? I'm quite sure its': sqrt((y2-y1)^2+(x2-x1)^2) –  Waleed Amjad Dec 5 '09 at 22:47
    
That said, if you want a pretty good solution but not necessarily the absolute optimal one, that wikipedia page also has some good suggestions. –  UncleO Dec 5 '09 at 22:49
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@Sbm007 Apparently, the robot can't move on a diagonal, so Mark is correct. –  UncleO Dec 5 '09 at 22:50
    
Ah of course. My bad! –  Waleed Amjad Dec 5 '09 at 22:50
    
I voted for your answer, but I'd like to see a little better definition of NP-hard. There's much more to it than what you posted, obviously. –  San Jacinto Dec 5 '09 at 23:02

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