A generalization of the scaling max-flow algorithm

In this paper, we generalize the capacity-scaling techniques in the design of algorithms for the maximum flow problem. Since all previous scaling max-flow algorithms use only one scale factor of value 2, we propose introducing a double capacity-scaling to imp rove and generalize them. The first capacity scaling has a variable scale factor β and the second uses the value 2. We show that, for different values of the scale factor β , both the classical scaling algorithm (with β =U) and the two-phase double scaling-capacity max-flow algorithm (with β =2) can be obtained. Moreover, theoretical complexities based on the worst-case analysis can be built depending on the values of β . In addition, a unique and simple implementation of the generalized method is possible and several strategies to improve its practical behavior can be incorporated. The paper finishes with a computational experiment that shows that the running time of capacity-scaling algorithms decreases as β increases.