We present the first constant approximation to the single sink buy-at-bulk network design problem, where we have to design a network by buying pipes of different costs and capacities per unit length to route demands at a set of sources to a single sink. The distances in the underlying network form a metric. This result improves the previous bound of O(log |R|), where R is the set of sources. We also present a better constant approximation to the related Access Network Design problem. Our algorithms are randomized and combinatorial. As a subroutine in our algorithm, we use an interesting variant of facility location with lower bounds on the amount of demand an open facility needs to serve. We call this variant load balanced facility location...
We study two versions of the single sink buy-at-bulk network design problem. We are given a network ...
In the classical facility location problemwe are given a set of facilities, with associated opening ...
We consider approximation algorithms for buy-at-bulk network design, with the additional constraint ...
We present the first constant approximation to the single sink buy-at-bulk network design problem, w...
AbstractConsider a given undirected graph G=(V,E) with non-negative edge lengths, a root node r∈V, a...
We consider a generalization of the Connected Facility Location problem where clients may connect to...
We initiate the algorithmic study of an important but NP-hard problem that arises commonly in networ...
We present the first constant factor approximation algorithm for network design with multiple commod...
We study a problem that integrates buy-at-bulk network design into the classical facility location p...
Answering an open question published in Operations Research (54, 73-91, 2006) in the area of network...
Abstract We study problems that integrate buy-at-bulk network design into the classical (connected) ...
We study problems that integrate buy-at-bulk network design into the classical (connected) facility ...
Abstract. We study a network loading problem with applications in lo-cal access network design. Give...
We study two versions of the single sink buy-at-bulk network design problem. We are given a network ...
We study single-sink network design problems in undirected graphs with vertex connectivity require...
We study two versions of the single sink buy-at-bulk network design problem. We are given a network ...
In the classical facility location problemwe are given a set of facilities, with associated opening ...
We consider approximation algorithms for buy-at-bulk network design, with the additional constraint ...
We present the first constant approximation to the single sink buy-at-bulk network design problem, w...
AbstractConsider a given undirected graph G=(V,E) with non-negative edge lengths, a root node r∈V, a...
We consider a generalization of the Connected Facility Location problem where clients may connect to...
We initiate the algorithmic study of an important but NP-hard problem that arises commonly in networ...
We present the first constant factor approximation algorithm for network design with multiple commod...
We study a problem that integrates buy-at-bulk network design into the classical facility location p...
Answering an open question published in Operations Research (54, 73-91, 2006) in the area of network...
Abstract We study problems that integrate buy-at-bulk network design into the classical (connected) ...
We study problems that integrate buy-at-bulk network design into the classical (connected) facility ...
Abstract. We study a network loading problem with applications in lo-cal access network design. Give...
We study two versions of the single sink buy-at-bulk network design problem. We are given a network ...
We study single-sink network design problems in undirected graphs with vertex connectivity require...
We study two versions of the single sink buy-at-bulk network design problem. We are given a network ...
In the classical facility location problemwe are given a set of facilities, with associated opening ...
We consider approximation algorithms for buy-at-bulk network design, with the additional constraint ...