A branch and bound algorithm for an uncapacitated facility location problem with a side constraint

In this paper, a branch and bound algorithm for solving an uncapacitated facility location problem with an aggregate capacity constraint is presented. The problem arises as a subproblem when Lagrangean relaxation of the capacity constraints is used to solve capacitated facility location problems. The algorithm is an extension of a procedure used by Christofides and Beasley to solve p-median problems and is based on Lagrangean relaxation in combination with subgradient optimization for lower bounding, simple Lagrangean heuristics to produce feasible solutions, and penalties to reduce the problem size. For node selection, a jump-backtracking rule is proposed, and alternative rules for choosing the branching variable are discussed. Computational experience is reported.