Find an algorithm that minimize the maximum distance of two sets, better than Greedy algorithm

Here is the interesting but complicated problem:

Suppose we have two sets of points. One set A includes points in some space grid, like regular 1D or 3D grid. The other set B includes points that are randomly spaced and are of the same size as the space grid. Mathematically, we could order the two sets and construct a corresponding matrix with respect to the distance between A and B. For example, A(i, j) may refer to the distance between i of A and j of B.

Given some ordering, we have a matrix. Then, the diagonal element (i,i) in the matrix is the distance between point i of A and point i of B. The problem is how to find a good reordering/indexing such that the maximum distance is as small as possible? In matrix form, how to find a good reordering/indexing such that the largest diagonal element as small as possible?

Notes from myself:

1. Suppose set A is corresponding to rows of the matrix, and set B is to columns of the matrix. Then reordering the matrix means we are doing row/column permutation. Therefore, our problem is equivalent to find a good permutation to minimize the largest diagonal element.

2. Greedy algorithm may be a choice. But I am trying to find an ideally perfect reordering that minimize the largest diagonal element.

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have you taken a look at this? mathoverflow.net/questions/24215/optimization-over-permutation –  prgao Sep 26 '13 at 18:58
I don't understand the problem. What are the off-diagonal elements of the ordering matrix? What do you mean by "we could order the two sets and construct a corresponding matrix"? –  dmm Sep 26 '13 at 19:07
@user2654818 Thank you for your time. Let me reword that part: we could order the two sets and construct a corresponding matrix with respect to the distance between A and B. For example, A(i, j) may refer to the distance between i of A and j of B. –  Appalachian Math Oct 1 '13 at 2:43
@prgao I didnt take a look at that question until I saw your message. Thanks a lot. That is pretty helpful. –  Appalachian Math Oct 1 '13 at 2:48
@prgao So my problem is an assignment problem? Given an reordering $\Pi$ of A, for each point in A, I have got its own minimum distance to the set of B. So my cost function would be the maximum distance among all the points of A. And the optimization problem is trying to minimize the maximum distance, i.e., f. It's like $\min_{\Pi} \max_{x\in A}\{d(x, y), y\in B\}$. –  Appalachian Math Oct 1 '13 at 3:54
My problem is a bit easier. I want to find one side minimum: $\min_{\Pi} \max_{x\in A}\{d(x, y), y\in B\}$. –  Appalachian Math Oct 1 '13 at 3:59