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Unbalanced graph cuts with minimum capacity

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Abstract

We systematically investigate minimum capacity unbalanced cut problems arising in social networks. Let k be an input parameter. A cut (A, B) is unbalanced if the size of its smaller side is at most k (called k-size) or exactly k (called Ek-size). An s-t cut (A, B) is unbalanced if its s-side is either k-size or Ek-size. In the min k-size cut (s-t cut, resp.) problem, we want to find a k-size cut (s-t cut, resp.) with the minimum capacity. The corresponding min Ek-size cut (and s-t cut) problem is defined in a similar way. While the classical min s-t cut problem has been studied extensively, the minimum capacity unbalanced cut problem has only recently attracted the attention of researchers. In this paper, we prove that the min k-size s-t cut problem is NP-hard, and give O(log n)-approximation algorithms for the min k-size s-t cut problem, the min Ek-size s-t cut problem, and the min Eksize cut problem. These results, together with previous results, complete our research into minimum capacity unbalanced cut problems.

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Authors and Affiliations

  1. School of Computer Science and Technology, Shandong University, Jinan, 250101, China

    Peng Zhang

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  1. Peng Zhang
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Correspondence to Peng Zhang.

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Peng Zhang is an associate professor of computer science at the School of Computer Science and Technology, Shandong University, China. He received his PhD in computer science from the Institute of Software, Chinese Academy of Sciences in 2007. His research interests include approximation algorithms, combinatorial optimization, and computational complexity. He has published more than twenty papers, mainly in approximation algorithms, in journals such as Theory of Computing Systems, Discrete Applied Mathematics, Theoretical Computer Science, and in conferences such as ISAAC, LATIN, COCOA, and TAMC.

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Zhang, P. Unbalanced graph cuts with minimum capacity. Front. Comput. Sci. 8, 676–683 (2014). https://doi.org/10.1007/s11704-014-3289-1

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  • DOI: https://doi.org/10.1007/s11704-014-3289-1

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