In this paper, a distributed, non-cooperative and dynamic load-balancing algorithm is proposed in the context of multi-commodity adversarial network equilibria with constrained providers’ capacities. The algorithm is proven to converge to a generalised Wardrop user-equilibrium, referred to as Beckmann equilibrium in the literature, in which, for each commodity, the latencies of the unsaturated providers are equalized. The algorithm is then used as a Multi-connectivity algorithm in the context of 5G heterogeneous networks, in which the user equipments are able to use different access networks simultaneously to increase the transmission capacity and/or to improve the transmission reliability. The proposed controller provides a solution for dy...
Abstract—We study the cross-layer design of congestion control and power allocation with outage cons...
This paper introduces algorithms for the multi-RAT load balancing function to maximize QoE in terres...
In this paper we validate the recent introduced cooperative load balancing algorithm ([6]) in a mult...
In this paper, a distributed, non-cooperative and dynamic load-balancing algorithm is proposed in th...
Modern mobile devices (e.g., laptops, smartphones, tablets, etc.) are capable to run a wide set of d...
Part 1: Autonomic and Decentralized ManagementInternational audienceWireless networks are getting mo...
Concerns have been raised regarding the economical viability for each operator to have a full region...
The expected huge increase of mobile devices and user data demand by 2020 will stress the current mo...
Abstract: Due to the growth of the number of intelligent devices and the broadband requirements, bet...
In the virtualized environment of 5G networks, the control and management of dynamic network slices ...
The rapid development of mobile broadband services with continuously increasing traffic volumes has ...
5G technology is foreseen to have a heterogeneous architecture with the various computational capabi...
The paper focuses on competitively optimal power-control and signal-shaping for "ad-hoc" networks co...
Load balancing is a powerful technique commonly used in communication and computer networks to impro...
Load balancing is a powerful technique commonly used in communication and computer networks to impro...
Abstract—We study the cross-layer design of congestion control and power allocation with outage cons...
This paper introduces algorithms for the multi-RAT load balancing function to maximize QoE in terres...
In this paper we validate the recent introduced cooperative load balancing algorithm ([6]) in a mult...
In this paper, a distributed, non-cooperative and dynamic load-balancing algorithm is proposed in th...
Modern mobile devices (e.g., laptops, smartphones, tablets, etc.) are capable to run a wide set of d...
Part 1: Autonomic and Decentralized ManagementInternational audienceWireless networks are getting mo...
Concerns have been raised regarding the economical viability for each operator to have a full region...
The expected huge increase of mobile devices and user data demand by 2020 will stress the current mo...
Abstract: Due to the growth of the number of intelligent devices and the broadband requirements, bet...
In the virtualized environment of 5G networks, the control and management of dynamic network slices ...
The rapid development of mobile broadband services with continuously increasing traffic volumes has ...
5G technology is foreseen to have a heterogeneous architecture with the various computational capabi...
The paper focuses on competitively optimal power-control and signal-shaping for "ad-hoc" networks co...
Load balancing is a powerful technique commonly used in communication and computer networks to impro...
Load balancing is a powerful technique commonly used in communication and computer networks to impro...
Abstract—We study the cross-layer design of congestion control and power allocation with outage cons...
This paper introduces algorithms for the multi-RAT load balancing function to maximize QoE in terres...
In this paper we validate the recent introduced cooperative load balancing algorithm ([6]) in a mult...