TITLE:
Some Complexity Results for the k-Splittable Flow Minimizing Congestion Problem
AUTHORS:
Chengwen Jiao, Qi Feng, Weichun Bu
KEYWORDS:
k-Splittable Flow, Minimize Congestion, Minimize Number of Rounds, Complexity
JOURNAL NAME:
Communications and Network,
Vol.10 No.1,
December
13,
2017
ABSTRACT: In this paper, we mainly consider the complexity of the k-splittable flow minimizing congestion problem. We give some complexity results. For the k-splittable flow problem, the existence of a feasible solution is strongly NP-hard. When the number of the source nodes is an input, for the uniformly exactly k-splittable flow problem, obtaining an approximation algorithm with performance ratio better than (√5+1)/2 is NP-hard. When k is an input, for single commodity k-splittable flow problem, obtaining an algorithm with performance ratio better than is NP-hard. In the last of the paper, we study the relationship of minimizing congestion and minimizing number of rounds in the k-splittable flow problem. The smaller the congestion is, the smaller the number of rounds.