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comment Given two lines on a plane, how to find integer points closest to their intersection?
Well, it would give you an upper bound for distance in x and y, at any rate.
Apr
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comment Given two lines on a plane, how to find integer points closest to their intersection?
I will happily edit it if someone can name a more specific category it falls in. It is certainly not ILP as a lot of people are claiming, so I wanted to be clear. Also, note that convex optimization problems require the objective function to be covex (ie for a given z, the points where f(x, y) <= z is a convex set) not just the feasible region, so it may not be as broad as you are thinking.
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revised Given two lines on a plane, how to find integer points closest to their intersection?
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Apr
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answered Given two lines on a plane, how to find integer points closest to their intersection?
Apr
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comment Given two lines on a plane, how to find integer points closest to their intersection?
As I noted on Alan's answer, this problem isn't linear (minimize x^2 + y^2), so it isn't strictly ILP, but rather Integer Convex Optimization. But it too is NP-complete, since ILP is a special case.
Apr
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comment Given two lines on a plane, how to find integer points closest to their intersection?
It isn't quite ILP, however; finding the closest point requires minimizing x^2 + y^2, which isn't a linear equation. It is convex, however, so it falls into the general category of convex optimization. I haven't looked closely, but I would wager that the techniques for solving ILP by adding constraints can be generalized for solving Integer Convex Optimization as well.
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