The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provides a powerful approach to meet the massive growth in traffic demands fueled by smartphones and bandwidth-hungry applications. Joint optimization of resource allocation and user association is of critical importance to achieve the maximum capacity benefits in such heterogeneous network deployments (HetNets). We first examine the problem of minimizing the amount of resources required to satisfy given traffic demands. We characterize the structure of the optimal solution, and identify a simple optimality condition in terms of the physical transmission rates of the edge users between the macro cell and the various pico cells. We further demonstrat...
We consider joint optimization of user-to-basestation (BS) association, and time-frequency resource ...
Deployment of low power basestations within cellular networks can potentially increase both capacity...
International audienceAs the demand for higher data rates is growing exponentially, homogeneous cell...
The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provide...
The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provide...
The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provide...
In this letter, we investigate the performance tradeoff between different tiers of heterogeneous net...
Heterogeneous wireless networks (HetNets) provide a means to increase network capacity by introducin...
As 5G aims to provide 1000-fold network capacity to mobile networks, heterogeneous networks (HetNet)...
The wireless industry is confronted with an exponentially increasing demand for ubiquitous wireless ...
We investigate a joint user association and interference management problem in two-tier downlink het...
Abstract—The rate distribution in heterogeneous networks (HetNets) greatly benefits from load balanc...
Abstract—A heterogeneous network (HetNet), which consists of macro cells and small cells, is an effe...
Small cells are deployed in Heterogeneous Networks (HetNet) to increase capacity per area. However,...
We investigate a joint user association and resource allocation problem in a three-tier heterogeneou...
We consider joint optimization of user-to-basestation (BS) association, and time-frequency resource ...
Deployment of low power basestations within cellular networks can potentially increase both capacity...
International audienceAs the demand for higher data rates is growing exponentially, homogeneous cell...
The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provide...
The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provide...
The deployment of pico cells to cover traffic hot spots within the footprint of a macro cell provide...
In this letter, we investigate the performance tradeoff between different tiers of heterogeneous net...
Heterogeneous wireless networks (HetNets) provide a means to increase network capacity by introducin...
As 5G aims to provide 1000-fold network capacity to mobile networks, heterogeneous networks (HetNet)...
The wireless industry is confronted with an exponentially increasing demand for ubiquitous wireless ...
We investigate a joint user association and interference management problem in two-tier downlink het...
Abstract—The rate distribution in heterogeneous networks (HetNets) greatly benefits from load balanc...
Abstract—A heterogeneous network (HetNet), which consists of macro cells and small cells, is an effe...
Small cells are deployed in Heterogeneous Networks (HetNet) to increase capacity per area. However,...
We investigate a joint user association and resource allocation problem in a three-tier heterogeneou...
We consider joint optimization of user-to-basestation (BS) association, and time-frequency resource ...
Deployment of low power basestations within cellular networks can potentially increase both capacity...
International audienceAs the demand for higher data rates is growing exponentially, homogeneous cell...