International audience—In this paper, we introduce a distributed load balancing algorithm for cellular networks. Traffic load in cellular networks is sometimes unbalanced. Some cells are overloaded, while others remain free. Simplicial homology is a tool from algebraic topology that allows to compute the coverage of a network by using only simple matrix computations. Our algorithm, which is based on simplicial homology, controls the transmission power of each cell in the network, not only to satisfy the coverage constraint, but also to redirect users from the overloaded cells to the underloaded ones. As a result, the traffic load of the cellular network is more balanced. The simulation results show that this algorithm improves the capacity ...
Abstract—Long term user rate in cellular networks is the product of spectral efficiency achieved and...
In this thesis, self-organising load balancing is investigated to deal with the uneven load distribu...
High demands on mobile networks provide a fresh opportunity to migrate towardsmulti-tier deployments...
Simplicial homology is a useful tool to access important information about the topology of wireless ...
International audienceSimplicial homology is a tool that provides a mathematical way to compute the ...
Abstract—Simplicial homology is a tool that provides a math-ematical way to compute the connectivity...
With an ever-increasing number of user equipment (UE) and bandwidth demands of new applications, the...
International audienceEnergy saving is one of the most investigated problems in wireless networks. I...
2015 IEEE Congress on Evolutionary Computation (IEEE CEC), Sendai, Japan, 25 - 28 May 2015Grammatica...
Hierarchical cellular networks that employ microcells with overlaying macrocells have been proposed ...
As communication networks scale up in size, complexity and demand, effective distribution of the tra...
The challenge of the fifth generation (5G) of wireless systems is to overcome fundamental limits of ...
As the data traffic demand increases exponentially, efficient and fair use of Wi-Fi networks togethe...
Densely deploying small cells will be a solution to provide explosive data requirements in fifth-gen...
The efficient allocation and use of radio resources is crucial for achieving the maximum possible th...
Abstract—Long term user rate in cellular networks is the product of spectral efficiency achieved and...
In this thesis, self-organising load balancing is investigated to deal with the uneven load distribu...
High demands on mobile networks provide a fresh opportunity to migrate towardsmulti-tier deployments...
Simplicial homology is a useful tool to access important information about the topology of wireless ...
International audienceSimplicial homology is a tool that provides a mathematical way to compute the ...
Abstract—Simplicial homology is a tool that provides a math-ematical way to compute the connectivity...
With an ever-increasing number of user equipment (UE) and bandwidth demands of new applications, the...
International audienceEnergy saving is one of the most investigated problems in wireless networks. I...
2015 IEEE Congress on Evolutionary Computation (IEEE CEC), Sendai, Japan, 25 - 28 May 2015Grammatica...
Hierarchical cellular networks that employ microcells with overlaying macrocells have been proposed ...
As communication networks scale up in size, complexity and demand, effective distribution of the tra...
The challenge of the fifth generation (5G) of wireless systems is to overcome fundamental limits of ...
As the data traffic demand increases exponentially, efficient and fair use of Wi-Fi networks togethe...
Densely deploying small cells will be a solution to provide explosive data requirements in fifth-gen...
The efficient allocation and use of radio resources is crucial for achieving the maximum possible th...
Abstract—Long term user rate in cellular networks is the product of spectral efficiency achieved and...
In this thesis, self-organising load balancing is investigated to deal with the uneven load distribu...
High demands on mobile networks provide a fresh opportunity to migrate towardsmulti-tier deployments...