We apply statistical physics to study the task of resource allocation in random networks with limited bandwidths along the transportation links. The mean-field approach is applicable when the connectivity is sufficiently high. It allows us to derive the resource shortage of a node as a well-defined function of its capacity. For networks with uniformly high connectivity, an efficient profile of the allocated resources is obtained, which exhibits features similar to the Maxwell construction. These results have good agreements with simulations, where nodes self-organize to balance their shortages, forming extensive clusters of nodes interconnected by unsaturated links. The deviations from the mean-field analyses show that nodes are likely t...
International audienceThe paper deals with a load-balancing algorithm for a closed stochastic networ...
Abstract—Random geometric networks are mathematical structures consisting of a set of nodes placed r...
We analyze a network of nodes in which pairs communicate over a shared wireless medium. We are inter...
We apply statistical physics to study the task of resource allocation in random networks with limite...
We apply statistical physics to study the task of resource allocation in random sparse networks with...
We study the problem of optimal source location in transportation networks. When the installation co...
An achievable bit rate per source-destination pair in a wireless network of n randomly located nodes...
The rapid technical progress in statistical physics in the last few decades broadens its application...
Resource allocation in sparsely connected networks, a representative problem of systems with real va...
A conditionally Poissonian power-law random graph with infinite degree variance is considered as a r...
We propose and analyze two models of networks in which pairs of nodes communicate over a shared wire...
We propose a resource distribution strategy to reduce the average travel time in a transportation ne...
During the last few years we have witnessed a rapid evolution of wireless technologies and a steep g...
The paper deals with a load-balancing algorithm for a closed stochastic network with two zones with ...
Abstract—The discrepancy between the upper bound on throughput scaling in wireless networks and the ...
International audienceThe paper deals with a load-balancing algorithm for a closed stochastic networ...
Abstract—Random geometric networks are mathematical structures consisting of a set of nodes placed r...
We analyze a network of nodes in which pairs communicate over a shared wireless medium. We are inter...
We apply statistical physics to study the task of resource allocation in random networks with limite...
We apply statistical physics to study the task of resource allocation in random sparse networks with...
We study the problem of optimal source location in transportation networks. When the installation co...
An achievable bit rate per source-destination pair in a wireless network of n randomly located nodes...
The rapid technical progress in statistical physics in the last few decades broadens its application...
Resource allocation in sparsely connected networks, a representative problem of systems with real va...
A conditionally Poissonian power-law random graph with infinite degree variance is considered as a r...
We propose and analyze two models of networks in which pairs of nodes communicate over a shared wire...
We propose a resource distribution strategy to reduce the average travel time in a transportation ne...
During the last few years we have witnessed a rapid evolution of wireless technologies and a steep g...
The paper deals with a load-balancing algorithm for a closed stochastic network with two zones with ...
Abstract—The discrepancy between the upper bound on throughput scaling in wireless networks and the ...
International audienceThe paper deals with a load-balancing algorithm for a closed stochastic networ...
Abstract—Random geometric networks are mathematical structures consisting of a set of nodes placed r...
We analyze a network of nodes in which pairs communicate over a shared wireless medium. We are inter...