The (edge) forwarding index of a graph is the minimum, over all possible routings of all the demands, of the maximum load of an edge. This metric is of a great interest since it captures the notion of global congestion in a precise way: the lesser the forwarding-index, the lesser the congestion. In this paper, we study the following design question: Given a number e of edges and a number n of vertices, what is the least congested graph that we can construct? and what forwarding-index can we achieve? Our problem has some distant similarities with the well-known (∆,D) problem, and we sometimes build upon results obtained on it. The goal of this paper is to study how to build graphs with low forwarding indices and to understand how the number ...
AbstractIn a given network with n vertices, a routing is defined as a set of n(n — 1) paths, one pat...
AbstractExpanding and forwarding are two graphic parameters related to the connectivity and the capa...
AbstractA routing R in a graph G is a set of paths {Rxy : x, y ϵ V(G)} where, for each ordered pair ...
The (edge) forwarding index of a graph is the minimum, over all possible routings of all the demands...
International audienceThe (edge) forwarding index of a graph is the minimum, over all possible rout-...
International audienceA routing R of a connected graph G is a collection that contains simple paths ...
AbstractThe decision version of the forwarding index problem is, given a connected graph G and an in...
AbstractA network (G,R) consists in a given undirected graph G of order n and a routing R, that is a...
A routing R of a connected graph G of order n is a collection of n(n — 1) simple paths connecting ev...
AbstractFor a given connected graph G of order n, a routing R is a set of n(n-1) simple paths one sp...
AbstractAnswering some questions of Heydemann, Meyer, Opatrny and Sotteau [4], we give upper bounds ...
Abstract. A routing R of a connected graph G of order n is a collection of n(n − 1) simple paths con...
Abstract-A network is defined as an undirected graph and a routing which consists of a collection of...
The decision version of the forwarding index problem is, given a connected graph G and an integer ξ,...
AbstractExpanding parameters of graphs (magnification constant, edge and vertex cutset expansion) ar...
AbstractIn a given network with n vertices, a routing is defined as a set of n(n — 1) paths, one pat...
AbstractExpanding and forwarding are two graphic parameters related to the connectivity and the capa...
AbstractA routing R in a graph G is a set of paths {Rxy : x, y ϵ V(G)} where, for each ordered pair ...
The (edge) forwarding index of a graph is the minimum, over all possible routings of all the demands...
International audienceThe (edge) forwarding index of a graph is the minimum, over all possible rout-...
International audienceA routing R of a connected graph G is a collection that contains simple paths ...
AbstractThe decision version of the forwarding index problem is, given a connected graph G and an in...
AbstractA network (G,R) consists in a given undirected graph G of order n and a routing R, that is a...
A routing R of a connected graph G of order n is a collection of n(n — 1) simple paths connecting ev...
AbstractFor a given connected graph G of order n, a routing R is a set of n(n-1) simple paths one sp...
AbstractAnswering some questions of Heydemann, Meyer, Opatrny and Sotteau [4], we give upper bounds ...
Abstract. A routing R of a connected graph G of order n is a collection of n(n − 1) simple paths con...
Abstract-A network is defined as an undirected graph and a routing which consists of a collection of...
The decision version of the forwarding index problem is, given a connected graph G and an integer ξ,...
AbstractExpanding parameters of graphs (magnification constant, edge and vertex cutset expansion) ar...
AbstractIn a given network with n vertices, a routing is defined as a set of n(n — 1) paths, one pat...
AbstractExpanding and forwarding are two graphic parameters related to the connectivity and the capa...
AbstractA routing R in a graph G is a set of paths {Rxy : x, y ϵ V(G)} where, for each ordered pair ...