Use of dynamic trees in a network simplex algorithm for the maximum flow problem

Goldfarb and Hao have proposed a pivot rule for the primal network simplex algorithm that will solve a maximum flow problem on an n-vertex, m-arc network in at most nm pivots and O(n²m) time. In this paper the authors describe how to extend the dynamic tree data structure of Sleator and Tarjan to reduce the running time of this algorithm to O(nmlogn). This bound is less than a logarithmic factor larger than those of the fastest known algorithms for the problem. The present extension of dynamic trees is interesting in its own right and may well have additional applications.