Approximation Algorithms for a Combined Facility Location Buy-at-Bulk Network Design Problem

Abstract

We consider a generalization of the connected facility location problem where the clients must be connected to the open facilities via shared capacitated (tree) networks instead of independent shortest paths. This problem arises in the planning of fiber optic telecommunication access networks, for example. Given a set of clients with positive demands, a set of potential facilities with opening costs, a set of capacitated access cable types, and a core cable type of infinite capacity, one has to decide which facilities to open, how to interconnect them using a Steiner tree of infinite capacity core cables, and which access cable types to install on which potential edges such that these edges form a forest and the installed capacities suffice to simultaneously route the client demands to the open facilities via single paths. The objective is to minimize the total cost of opening facilities, building the core Steiner tree among them, and installing the access cables. In this paper, we devise a constant-factor approximation algorithm for problem instances where the access cable types obey economies of scale. In the special case where only multiples of a single cable type can be installed on the access edges, a variant of our algorithm achieves a performance guarantee of 6.72.KeywordsFacility LocationSteiner TreeFacility Location ProblemNetwork Design ProblemSteiner Tree ProblemThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.