Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to implement a hill climbing algorithm to decide which locations to choose from a set of locations based on specific criteria. There are up to 5000 locations to choose from.

One of these criteria is geographic dispersion, thus I need to be able to assign any subset of my locations a value representing dispersion.

Each location has latitude and longitude data.

Speed is an issue and that is why I need some heuristic that will estimate how dispersed a specific set of locations (i.e a possible solution) is.

I have tried summing the pairwise distances of each of the locations in my potential solution but this proves too slow.

I then tried the sum of the distances from the centre of all the locations in my potential solution, this proved faster but doesn't work as effectively. Using this approach will favour a few clusters of locations.

Any other suggestions will be greatly appreciated.

share|improve this question
I'm curious why summing pairwise distances is too slow. I think of facility location problems as strategic, high-cost decision problems, i.e., an algorithm that takes hours or days to run is good enough for a decision that will be fixed for years. –  raoulcousins Jan 20 '13 at 17:01
Yeah you are right, my problem lies in the fact that geographical dispersion is always a ternary target compared to the other factors, i.e with all other things being equal choose the more dispersed of two solutions. Without geographical dispersion my implementation supplies good results within 15 seconds, I can not exceed 30 seconds. I am basically trying to find a middle ground where I can gather even partial indication regarding dispersion without paying the calculation hit. –  user1994232 Jan 20 '13 at 18:54

1 Answer 1

First, could you restate what you mean by pairwise sums? I'm asking, because it sounds that you form all possible pairs and that would be highly ineficient. If this is the case, how about finding first 1) the closest neighbors, then 2) the longest path?

1) If I recall it right, you can do this in less than O(n log n) time. 2) If the formed trees are disconnected, you have to find the shortest distances between trees, too. And because of trees, this is not an NP-complete problem but actually a shortest path alg suffices.

At this moment, with huge suspicion that I didn't understood your problem correctly, how about some kind of deviation on count of occurrences on geog areas, either evenly divided between extreme points or chosen with some prior heuristic.

Can you define or further elaborate the dispersion concept?

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.