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Computing the Line Index of Balance Using Integer Programming Optimisation

In: Optimization Problems in Graph Theory

Author

Listed:
  • Samin Aref

    (University of Auckland)

  • Andrew J. Mason

    (University of Auckland)

  • Mark C. Wilson

    (University of Auckland)

Abstract

An important measure of signed graphs is the line index of balance which has applications in many fields. However, this graph-theoretic measure was underused for decades because of the inherent complexity in its computation which is closely related to solving NP-hard graph optimisation problems like MAXCUT. We develop new quadratic and linear programming models to compute the line index of balance exactly. Using the Gurobi integer programming optimisation solver, we evaluate the line index of balance on real-world and synthetic datasets. The synthetic data involves Erdős-Rényi graphs, Barabási-Albert graphs, and specially structured random graphs. We also use well-known datasets from the sociology literature, such as signed graphs inferred from students’ choice and rejection, as well as datasets from the biology literature including gene regulatory networks. The results show that exact values of the line index of balance in relatively large signed graphs can be efficiently computed using our suggested optimisation models. We find that most real-world social networks and some biological networks have a small line index of balance which indicates that they are close to balanced.

Suggested Citation

  • Samin Aref & Andrew J. Mason & Mark C. Wilson, 2018. "Computing the Line Index of Balance Using Integer Programming Optimisation," Springer Optimization and Its Applications, in: Boris Goldengorin (ed.), Optimization Problems in Graph Theory, pages 65-84, Springer.
    • Handle: RePEc:spr:spochp:978-3-319-94830-0_3
    DOI: 10.1007/978-3-319-94830-0_3
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