An Oracle Strongly Polynomial Algorithm for Bottleneck Expansion Problems

Let E = { e 1 , e 2 , , e n } be a finite set and $\cal F $ be a family of subsets of E . For each element e i in E , c i is a given capacity and w i is the cost of increasing capacity c i by one unit. The problem is how to expand the capacities of elements in E so that the capacity of $\cal F $ is...

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Veröffentlicht in:Optimization methods & software Jg. 17; H. 1; S. 61 - 75
Hauptverfasser: Zhang, Jianzhong, Liu, Zhenhong
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Taylor & Francis Group 01.02.2002
Schlagworte:
Bottleneck Capacity
Capacity Expansion
Polynomially Solvable
ISSN:1055-6788, 1029-4937
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Zusammenfassung:Let E = { e 1 , e 2 , , e n } be a finite set and $\cal F $ be a family of subsets of E . For each element e i in E , c i is a given capacity and w i is the cost of increasing capacity c i by one unit. The problem is how to expand the capacities of elements in E so that the capacity of $\cal F $ is as large as possible, subject to a given budget restriction. This problem was introduced in [1] where an algorithm was proposed which is polynomial under some conditions. However, that method is not strongly polynomial. In this paper this problem is solved by solving a combinatorial equation. It is shown that if the problem $ \min _{F\in {\cal F}}w(F) $ is solvable in strongly polynomial time, then the bottleneck expansion problem is also solvable in strongly polynomial time. This result is stronger than what the method in [1] gives. In addition, some interesting variations of this problem are also discussed.
ISSN:1055-6788
1029-4937
DOI:10.1080/10556780290027819