select disperse scatters from points distributed in a plane

I have `N=200 points` (x and y coordinates known) distributed in a plane.

I want to select `M=10` of them, and then there will be `M*(M-1)/2 = 10 * 9 / 2 = 45` edges within them.

I need to keep these `10` points disperse enough, which means that I want to select those `10` points in such a way that would give the maximum of the minimum edges' length.

In other words, I would like to solve an optimization problem (finding maximum) of the function

`F = min (lengths_of_all_45_edges)` by varying the chosen `10` points.

Any fast algorithm to implement it?

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Not completely clear what you've mean by "large enough": the distance should be higher that some threshold value, or it should be maximized? If latter, what to be maximized - distance between all of the selected points or smth else? Please give us more details. – Pavel K Sep 5 '13 at 7:26
Also, is “some” a fixed number of points? If not, what criteria are you envisioning? – microtherion Sep 5 '13 at 7:26
@PavelK I've updated my description:) – ThunderEX Sep 5 '13 at 7:31
It is better, but not yet clear. Did you mean min ( sum_for_each_selected_point( sum_of_distances_to_other_selected_points ) )? Result is still greatly depends on the number of chosen points. I'm talking about boundary conditions on this number. If the number could be any, that the obvious solution will be to choose only 2 points and select just those that have maximum distance? – Pavel K Sep 5 '13 at 7:42
@PavelK I mean min(distance between each pair within chosen points), and what about just choose fixed 10 points? – ThunderEX Sep 5 '13 at 7:50