This paper is devoted to the online dominating set problem and its variants. We believe the paper represents the first systematic study of the effect of two limitations of online algorithms: making irrevocable decisions while not knowing the future, and being incremental, i.e., having to maintain solutions to all prefixes of the input. This is quantified through competitive analyses of online algorithms against two optimal algorithms, both knowing the entire input, but only one having to be incremental. We also consider the competitive ratio of the weaker of the two optimal algorithms against the other. We consider important graph classes, distinguishing between connected and not necessarily connected graphs. For the classic graph classes o...
In online set packing (osp), elements arrive online, announcing which sets they belong to, and the a...
The purpose of the online graph exploration problem is to visit all the nodes of a given graph and c...
Over the past ten years, online algorithms have re-ceived considerable research interest. Online pro...
We study online versions of Minimum Dominating Set, Minimum Connected Dominating Set, and Minimu...
We study the dominating set problem in an online setting. An algorithm is required to guarantee comp...
Given a \emph{graph} $G = (V, E)$, a subset $D \subseteq V$ is called a \emph{dominating set} if eac...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
In an online problem, the input is revealed one piece at a time. In every time step, the online algo...
AbstractWe study the online version of the independent set problem in graphs. The vertices of an inp...
Several well-studied graph problems aim to select a largest (or smallest) induced subgraph with a gi...
This chapter presents an introduction to the competitive analysis of online algorithms. In an online...
In this paper, we study a very general type of online network design problem, and generalize two dif...
We study a randomized algorithm for graph domination, by which, according toa uniformly chosen permu...
We study the Maximum Cardinality Matching (MCM) and the Maximum Weight Matching (MWM) problems, on t...
In this thesis we explore a variety of online and adversarial algorithms. We primarily explore the f...
In online set packing (osp), elements arrive online, announcing which sets they belong to, and the a...
The purpose of the online graph exploration problem is to visit all the nodes of a given graph and c...
Over the past ten years, online algorithms have re-ceived considerable research interest. Online pro...
We study online versions of Minimum Dominating Set, Minimum Connected Dominating Set, and Minimu...
We study the dominating set problem in an online setting. An algorithm is required to guarantee comp...
Given a \emph{graph} $G = (V, E)$, a subset $D \subseteq V$ is called a \emph{dominating set} if eac...
We generalize the model of online computation with three players (algorithm, adversary and an oracle...
In an online problem, the input is revealed one piece at a time. In every time step, the online algo...
AbstractWe study the online version of the independent set problem in graphs. The vertices of an inp...
Several well-studied graph problems aim to select a largest (or smallest) induced subgraph with a gi...
This chapter presents an introduction to the competitive analysis of online algorithms. In an online...
In this paper, we study a very general type of online network design problem, and generalize two dif...
We study a randomized algorithm for graph domination, by which, according toa uniformly chosen permu...
We study the Maximum Cardinality Matching (MCM) and the Maximum Weight Matching (MWM) problems, on t...
In this thesis we explore a variety of online and adversarial algorithms. We primarily explore the f...
In online set packing (osp), elements arrive online, announcing which sets they belong to, and the a...
The purpose of the online graph exploration problem is to visit all the nodes of a given graph and c...
Over the past ten years, online algorithms have re-ceived considerable research interest. Online pro...