7. run this algorithm again, change k = 2
8. if the cur_node cannot be split into 2, or the cur_node cannot be split into 2 circles with smaller areas than its parent, add cur_node to end_nodes and resume algorithm with next valid_node not in
explored_node as the cur_node
9. if all the valid_nodes are in explored_nodes, return end_nodes
10. repeat the above algorithm for all k from 2 to int(#number of total points/n) and take the end_nodes with the lowest total area
The runtime of the minimum enclosing circle is O(n), and the runtime of constrained k-means depends on k itself. Here, the value of k is proportional to the total number of points. <br>
We would expect the algorithm to slow as the number of points increase. For reference, a set of 80 points with n =3, took about 30 minutes. <br>
Further improvements could implement an early-stopping method to converge to a local optima. <br>
==Comparison to Other Algorithm ==
The K-Means based algorithm returns the optimal solution, albeit slower <br>