Publication Date:
2018
abstract:
Given a capacitated network, the Capacitated Edge Activation problem consists of
choosing the edges to be activated to ensure the routing of a set of demands. We
focus on capacity formulations of the problem, that is, formulations including only
design variables, whereas variables corresponding to the routes are projected out.
First, we investigate the combinatorial properties of the problem to derive a capacity
formulation both for splittable flows (the routes are unrestricted) and for unsplittable
ones (each demand must be routed on a single path). Then, we study the corresponding
polyhedron, identifying valid and facet-defining inequalities. Finally, we develop a
branch-and-cut algorithm and present computational results.
choosing the edges to be activated to ensure the routing of a set of demands. We
focus on capacity formulations of the problem, that is, formulations including only
design variables, whereas variables corresponding to the routes are projected out.
First, we investigate the combinatorial properties of the problem to derive a capacity
formulation both for splittable flows (the routes are unrestricted) and for unsplittable
ones (each demand must be routed on a single path). Then, we study the corresponding
polyhedron, identifying valid and facet-defining inequalities. Finally, we develop a
branch-and-cut algorithm and present computational results.
Iris type:
01.01 Articolo in rivista
Keywords:
Benders decomposition; capacity formulation; energy-aware networking; facets; network design; splittable flows; unsplittable flows; sensistivity analysis
List of contributors:
Mattia, Sara
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