Yes, you could definitely use linear programming for this, but it is hard and I think you have to define your problem more precisely. I have too many questions for a comment, I hope you don't mind I write this as an answer...
Your points can be either in the "column group" or in the "row group". From your proposition above, I understand that you know the number of column groups and row groups in advance?
So you know your groups composition, you just want to find a repartition of the points in those groups in order to minimise the sum of the costs, determined by:
- The vertical width of the horizontal clusters (
c(H) = max (i,j in H) |yi - yj|)
- The horizontal width of the vertical clusters (
c(V) = max (i,j in V) |xi - xj|)
H an horizontal cluster,
V a vertical cluster, and the total cost will be:
c(H1) + c(H2) + ... + c(Hn) + c(V1) + c(V2) + ... + c(Vp)
n (number of horizontal clusters) and
p (number of vertical clusters) known in advance. Is this correct?
For the horizontal groups, you say you can't have "holes". I would represent this as a constraint of your problem, if you can quantify the size of the holes. For instance:
for each i in C, ( min (j in C) |xi - xj| ) < r
will insure that you don't have a gap of more than r in the horizontal cluster C. Is this what you want? Is
r a fixed number?
Is this the complete problem, or do you have other constraints (minimal number of points per group, or something)?
Do you need an exact minimal solution, or a "good" solution would be enough?
Finally, for the technical part, since your previous post was tagged 'python' and this one is not, do you have to use python to solve the model?