Improved Approximation Algorithms for the Maximum Happy Vertices and Edges Problems

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

doi:10.1007/s00453-017-0302-8

Improved Approximation Algorithms for the Maximum Happy Vertices and Edges Problems

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

^*Corresponding author for this work

Shandong University
University of Alberta
University of California at Riverside
Tsinghua University
CAS - Institute of Software
Kyushu Institute of Technology

Research output: Contribution to journal › Article › peer-review

21 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 language	English
Pages (from-to)	1412-1438
Number of pages	27
Journal	Algorithmica
Volume	80
Issue number	5
DOIs	https://doi.org/10.1007/s00453-017-0302-8
State	Published - 1 May 2018
Externally published	Yes

Keywords

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

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10.1007/s00453-017-0302-8

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@article{5e05970fd43b4463bcd8cb23ed248a20,

title = "Improved Approximation Algorithms for the Maximum Happy Vertices and Edges Problems",

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.",

keywords = "Approximation algorithm, Maximum Happy Edges, Maximum Happy Vertices, Network homophyly, Randomized rounding",

author = "Peng Zhang and Yao Xu and Tao Jiang and Angsheng Li and Guohui Lin and Eiji Miyano",

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year = "2018",

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doi = "10.1007/s00453-017-0302-8",

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T1 - Improved Approximation Algorithms for the Maximum Happy Vertices and Edges Problems

AU - Zhang, Peng

AU - Xu, Yao

AU - Jiang, Tao

AU - Li, Angsheng

AU - Lin, Guohui

AU - Miyano, Eiji

PY - 2018/5/1

Y1 - 2018/5/1

N2 - 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.

AB - 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.

KW - Approximation algorithm

KW - Maximum Happy Edges

KW - Maximum Happy Vertices

KW - Network homophyly

KW - Randomized rounding

UR - https://www.scopus.com/pages/publications/85015975538

U2 - 10.1007/s00453-017-0302-8

DO - 10.1007/s00453-017-0302-8

M3 - 文章

AN - SCOPUS:85015975538

SN - 0178-4617

VL - 80

SP - 1412

EP - 1438

JO - Algorithmica

JF - Algorithmica

IS - 5

ER -

Improved Approximation Algorithms for the Maximum Happy Vertices and Edges Problems

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Keywords

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