Abstract. In this work we consider temporal networks, i.e. networks defined by a labeling λ assigning to each edge of an underlying graph G a set of discrete time-labels. The labels of an edge, which are natural numbers, indicate the discrete time moments at which the edge is avail-able. We focus on path problems of temporal networks. In particular, we consider time-respecting paths, i.e. paths whose edges are assigned by λ a strictly increasing sequence of labels. We begin by giving two efficient algorithms for computing shortest time-respecting paths on a temporal network. We then prove that there is a natural analogue of Menger’s the-orem holding for arbitrary temporal networks. Finally, we propose two cost minimization parameters for te...
We study the design of small cost temporally connected graphs, under various constraints. We mainly ...
In this work we consider temporal graphs, i.e. graphs, each edge of which is assigned a set of discr...
In a temporal graph, each edge is available at specific points in time. Such an availability point i...
Abstract. In this work we consider temporal networks, i.e. networks defined by a labeling λ assignin...
In this work we consider temporal networks, i.e. networks defined by a labelingλ assigning to each e...
In this work we consider temporal networks, i.e. networks defined by a labeling λ assigning to ea...
A graph is temporally connected if there exists a strict temporal path, i.e., a path whose edges hav...
AbstractMany network problems are based on fundamental relationships involving time. Consider, for e...
A graph is temporally connected if there exists a strict temporal path, i.e., a path whose edges hav...
Many network problems are based on fundamental relationships involving time. Consider, for example, ...
We study the design of small cost temporally connected graphs, under various constraints. We mainly ...
We consider the problem of assigning appearing times to the edges of a digraph in order to maximize ...
We consider temporal graphs with discrete time labels and investigate the size and the approximabili...
We investigate the minimum weight path problem in networks whose link weights and link delays are bo...
Abstract. In this work, we introduce the notion of time to some well-known combinatorial optimizatio...
We study the design of small cost temporally connected graphs, under various constraints. We mainly ...
In this work we consider temporal graphs, i.e. graphs, each edge of which is assigned a set of discr...
In a temporal graph, each edge is available at specific points in time. Such an availability point i...
Abstract. In this work we consider temporal networks, i.e. networks defined by a labeling λ assignin...
In this work we consider temporal networks, i.e. networks defined by a labelingλ assigning to each e...
In this work we consider temporal networks, i.e. networks defined by a labeling λ assigning to ea...
A graph is temporally connected if there exists a strict temporal path, i.e., a path whose edges hav...
AbstractMany network problems are based on fundamental relationships involving time. Consider, for e...
A graph is temporally connected if there exists a strict temporal path, i.e., a path whose edges hav...
Many network problems are based on fundamental relationships involving time. Consider, for example, ...
We study the design of small cost temporally connected graphs, under various constraints. We mainly ...
We consider the problem of assigning appearing times to the edges of a digraph in order to maximize ...
We consider temporal graphs with discrete time labels and investigate the size and the approximabili...
We investigate the minimum weight path problem in networks whose link weights and link delays are bo...
Abstract. In this work, we introduce the notion of time to some well-known combinatorial optimizatio...
We study the design of small cost temporally connected graphs, under various constraints. We mainly ...
In this work we consider temporal graphs, i.e. graphs, each edge of which is assigned a set of discr...
In a temporal graph, each edge is available at specific points in time. Such an availability point i...