Mercedes Landete (Center of Operations Research, Miguel Hernández University of Elche) Juanjo Peiró (Departament d’Estadística i Investigació Operativa, Facultat de Ciències Matemàtiques, Universitat de València) and Hande Yaman (Research Centre for Operations Research and Business Statistics (ORSTAT), Faculty of Economics and Business, KU Leuven)
Abstract: This work focuses on the capacitated dispersion problem for which we study several mathematical formulations in different spaces using variables associated with nodes, edges, and costs. The relationships among the presented formulations are investigated by comparing the projections of the feasible sets of the LP relaxations onto the subspace of natural variables. These formulations are then strengthened with families of valid inequalities and variable-fixing procedures. The separation problems associated with the valid inequalities that are exponential in number are shown to be polynomially solvable by reducing them to longest path problems in acyclic graphs. The dual bounds obtained from stronger but larger formulations are used to improve the strength of weaker but smaller formulations. Several sets of computational experiments are conducted to illustrate the usefulness of the findings, as well as the aptness of the formulations for different types of instances.