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