Abstract We derive an analytical expression for the mean load at each node of an arbitrary undirected graph for the non-uniform multicommodity flow problem under weighted random routing. We show the mean load at each node, net of its demand and normalized by its (weighted) degree, is a constant equal to the trace of the product of two matrices: the Laplacian of the demand matrix and the generalized inverse of the graph Laplacian. For the case of uniform demand, this constant reduces to the sum of the inverses of the non-zero eigenvalues of the graph Laplacian. We note that such a closed-form expression for the network capacity for the general multicommodity network flow problem has not been reported before, and even though (weighted) random...
The problem of traffic congestion in complex networks is studied. Two kinds of complex network struc...
Gupta et al. [13] introduced a very general multicommodity flow problem in which the cost of a given...
Algorithms for network flow problems, such as maximum flow, minimum cost flow, and multi-commodity f...
Given a network 𝒩, and a collection 𝒱 of unordered pairs of vertices in 𝒩...
Give random capacities C to the edges of the complete n-vertex graph. Consider the maximum flow Φn t...
We consider a multicommodity flow problem on a complete graph whose edges have random, independent, ...
abstract: This thesis addresses the following fundamental maximum throughput routing problem: Given ...
We provide a tight approximate characterization of the n-dimensional product multicommodity flow (PM...
Consider a directed graph G = (V, A), and a set of traffic demands to be shipped between pairs of no...
Throughput is a main performance objective in communication networks. This paper considers a fundame...
International audienceMulticommodity flow networks are known to be much harder than single-commodity...
In a network where the cost of flow across an edge is nonlinear in the volume of flow, and where sou...
Consider a directed graph G = (V; A), and a set of traffic demands to be shipped between pairs of n...
Given a set of routes between pairs of sites over a communication network, the traffic load of a lin...
We give two results for multicommodity flows in thed-dimensional hypercubeQdwithindependent random e...
The problem of traffic congestion in complex networks is studied. Two kinds of complex network struc...
Gupta et al. [13] introduced a very general multicommodity flow problem in which the cost of a given...
Algorithms for network flow problems, such as maximum flow, minimum cost flow, and multi-commodity f...
Given a network 𝒩, and a collection 𝒱 of unordered pairs of vertices in 𝒩...
Give random capacities C to the edges of the complete n-vertex graph. Consider the maximum flow Φn t...
We consider a multicommodity flow problem on a complete graph whose edges have random, independent, ...
abstract: This thesis addresses the following fundamental maximum throughput routing problem: Given ...
We provide a tight approximate characterization of the n-dimensional product multicommodity flow (PM...
Consider a directed graph G = (V, A), and a set of traffic demands to be shipped between pairs of no...
Throughput is a main performance objective in communication networks. This paper considers a fundame...
International audienceMulticommodity flow networks are known to be much harder than single-commodity...
In a network where the cost of flow across an edge is nonlinear in the volume of flow, and where sou...
Consider a directed graph G = (V; A), and a set of traffic demands to be shipped between pairs of n...
Given a set of routes between pairs of sites over a communication network, the traffic load of a lin...
We give two results for multicommodity flows in thed-dimensional hypercubeQdwithindependent random e...
The problem of traffic congestion in complex networks is studied. Two kinds of complex network struc...
Gupta et al. [13] introduced a very general multicommodity flow problem in which the cost of a given...
Algorithms for network flow problems, such as maximum flow, minimum cost flow, and multi-commodity f...