A Power-Indexed Formulation for Wireless Network Design

Authors

  • Fabio D'Andreagiovanni Dipartimento Informatica e Sistemistica "Antonio Ruberti"
  • Carlo Mannino Dipartimento Informatica e Sistemistica "Antonio Ruberti"
  • Antonio Sassano Dipartimento Informatica e Sistemistica "Antonio Ruberti"

Keywords:

Wireless Network Design, 0-1 Linear Programming, Cover Inequalities

Abstract

We consider low-rank semidefinite programming (LRSDP) relaxations of {-1, 1} quadratic problems that can be formulated as the nonconvex nonlinear programming problem of minimizing a quadratic function subject to separable quadratic equality constraints. We prove the equivalence of the LRSDP problem with the unconstrained minimization of a new merit function and we define an efficient and globally convergent algorithm for finding critical points of the LRSDP problem. Finally, we test our code on an extended set of instances of the Max-Cut problem and we report comparisons with other existing codes.

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Published

14-12-2009

How to Cite

D'Andreagiovanni, F., Mannino, C., & Sassano, A. (2009). A Power-Indexed Formulation for Wireless Network Design. Department of Computer and System Sciences Antonio Ruberti Technical Reports, 1(14). Retrieved from https://rosa.uniroma1.it/rosa00/index.php/dis_technical_reports/article/view/8855

Issue

Vol. 1 No. 14 (2009): A Power-Indexed Formulation for Wireless Network Design

Section

Articles