The online (uniform) buy-at-bulk network design problem asks us to design a network, where the edge-costs exhibit economy-of-scale. Previous approaches to this problem used tree-embeddings, giving us randomized algorithms. Moreover, the optimal results with a logarithmic competitive ratio requires the metric on which the network is being built to be known up-front; the competitive ratios then depend on the size of this metric (which could be much larger than the number of terminals that arrive).\u3cbr/\u3e\u3cbr/\u3eWe consider the buy-at-bulk problem in the least restrictive model where the metric is not known in advance, but revealed in parts along with the demand points seeking connectivity arriving online. For the single sink buy-at-bul...
AbstractConsider a given undirected graph G=(V,E) with non-negative edge lengths, a root node r∈V, a...
In this paper, we study online algorithms when the in-put is not chosen adversarially, but consists ...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...
The online (uniform) buy-at-bulk network design problem asks us to design a network, where the edge-...
Suppose the vertices of a complete weighted graph are revealed to us one at a time, and we have to b...
Abstract—We consider the problem of constructing a single spanning tree for the single-sink buy-at-b...
We consider the problem of constructing a single spanning tree for the single-source buy-at-bulk net...
We study a wide range of online graph and network optimization problems, focusing on problems that a...
In this paper, we study a very general type of online network design problem, and generalize two dif...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
We present online algorithms for directed spanners and Steiner forests. These problems fall under th...
In an instance of the network design problem, we are given a graph G=(V,E), an edge-cost function c:...
We consider approximation algorithms for buy-at-bulk network design, with the additional constraint ...
The Network Construction problem, studied by Angluin et al., Hodosa et al., and others, asks for a m...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
AbstractConsider a given undirected graph G=(V,E) with non-negative edge lengths, a root node r∈V, a...
In this paper, we study online algorithms when the in-put is not chosen adversarially, but consists ...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...
The online (uniform) buy-at-bulk network design problem asks us to design a network, where the edge-...
Suppose the vertices of a complete weighted graph are revealed to us one at a time, and we have to b...
Abstract—We consider the problem of constructing a single spanning tree for the single-sink buy-at-b...
We consider the problem of constructing a single spanning tree for the single-source buy-at-bulk net...
We study a wide range of online graph and network optimization problems, focusing on problems that a...
In this paper, we study a very general type of online network design problem, and generalize two dif...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
We present online algorithms for directed spanners and Steiner forests. These problems fall under th...
In an instance of the network design problem, we are given a graph G=(V,E), an edge-cost function c:...
We consider approximation algorithms for buy-at-bulk network design, with the additional constraint ...
The Network Construction problem, studied by Angluin et al., Hodosa et al., and others, asks for a m...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
AbstractConsider a given undirected graph G=(V,E) with non-negative edge lengths, a root node r∈V, a...
In this paper, we study online algorithms when the in-put is not chosen adversarially, but consists ...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...