Add to ORKGThis paper is devoted to an online variant of the minimum spanning tree problem in randomly weighted graphs. We assume that the input graph is complete and the edge weights are uniform distributed over [0, 1]. An algorithm receives the edges one by one and has to decide immediately whether to include the current edge into the spanning tree or to reject it. The corresponding edge sequence is determined by some adversary. We propose an algorithm which achieves E [ALG] /E [OPT] = O (1) and E [ALG/OPT] = O (1) against a fair adaptive adversary, i.e., an adversary which determines the edge order online and is fair in a sense that he does not know more about the edge weights than the algorithm. Furthermore, we prove that no online algorithm perfo...
We investigate the problem of sequentially predicting the binary labels on the nodes of an arbitrary...
A distributed algorithm ispresented that constructs he minimum-weight spanning tree in a connected u...
AbstractWe study random walks on undirected graphs with weighted edges. Our main result shows that a...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...
We show that the mistake bound for predicting the nodes of an arbitrary weighted graph is characteri...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
[[abstract]]This paper considers a family of randomized on-line algorithms. Algorithm R(m), where 1 ...
In this paper, we study online algorithms when the in-put is not chosen adversarially, but consists ...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
We show that the mistake bound for predict-ing the nodes of an arbitrary weighted graph is character...
We present a randomized linear-time algorithm to find a minimum spanning tree in a connected graph w...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
We investigate the problem of sequentially predicting the binary labels on the nodes of an arbitrary...
A distributed algorithm ispresented that constructs he minimum-weight spanning tree in a connected u...
AbstractWe study random walks on undirected graphs with weighted edges. Our main result shows that a...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...
In the online minimum spanning tree problem, a graph is revealed vertex by vertex; together with eve...
We show that the mistake bound for predicting the nodes of an arbitrary weighted graph is characteri...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
[[abstract]]This paper considers a family of randomized on-line algorithms. Algorithm R(m), where 1 ...
In this paper, we study online algorithms when the in-put is not chosen adversarially, but consists ...
In this paper, we study online algorithms when the input is not chosen adversarially, but consists o...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
We show that the mistake bound for predict-ing the nodes of an arbitrary weighted graph is character...
We present a randomized linear-time algorithm to find a minimum spanning tree in a connected graph w...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
We investigate the problem of sequentially predicting the binary labels on the nodes of an arbitrary...
A distributed algorithm ispresented that constructs he minimum-weight spanning tree in a connected u...
AbstractWe study random walks on undirected graphs with weighted edges. Our main result shows that a...