Improved Approximation Algorithms for the Maximum Happy Vertices and Edges Problems

Peng Zhang, Yao Xu, Tao Jiang, Angsheng Li, Guohui Lin, Eiji Miyano

Research output: Contribution to journalArticlepeer-review

18 Scopus citations

Abstract

The Maximum Happy Vertices (MHV) problem and the Maximum Happy Edges (MHE) problem are two fundamental problems arising in the study of the homophyly phenomenon in large scale networks. Both of these two problems are NP-hard. Interestingly, the MHE problem is a natural generalization of Multiway Uncut, the complement of the classic Multiway Cut problem. In this paper, we present new approximation algorithms for MHV and MHE based on randomized LP-rounding technique and non-uniform approach. Specifically, we show that MHV can be approximated within 1Δ+1/g(Δ), where Δ is the maximum vertex degree and g(Δ)=(Δ+Δ+1)2Δ, and MHE can be approximated within 12+24f(k)≥0.8535, where f(k) ≥ 1 is a function of the color number k. These results improve over the previous approximation ratios for MHV, MHE as well as Multiway Uncut in the literature.

Original languageEnglish
Pages (from-to)1412-1438
Number of pages27
JournalAlgorithmica
Volume80
Issue number5
DOIs
StatePublished - May 1 2018

Scopus Subject Areas

  • General Computer Science
  • Computer Science Applications
  • Applied Mathematics

Keywords

  • Approximation algorithm
  • Maximum Happy Edges
  • Maximum Happy Vertices
  • Network homophyly
  • Randomized rounding

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