Densely deploying small cells will be a solution to provide explosive data requirements in fifth-generation networks. Because users often cluster together in popular locations of an urban area, congested small cells in the popular sites are also gathered. Traditional load balancing schemes generally only consider neighboring cells when offloading users are not suitable for clusters of overloaded cells. This paper considers groups of overloaded cells in the load balancing problem. The objective is to maximize the quality-of-service satisfaction ratio. To solve the problem, we propose a multidepth offloading algorithm with the consideration of the radio resource allocation. The proposed multidepth offloading algorithm can be applied no matter...
Small-cell architecture is widely adopted by cellular network operators to increase network capacity...
We provide a general framework for the problem of data offloading in a heterogeneous wireless networ...
Cell load imbalances in wireless networks degrade performance. Macro and small cell collocated deplo...
In Ultra-Dense Networks, the dense deployment of small cells generates an uneven traffic distributio...
Ultra-Dense Networks (UDNs) can be used to improve coverage. With limited network capacity and the d...
With an ever-increasing number of user equipment (UE) and bandwidth demands of new applications, the...
An efficient resource allocation mechanism in the physical layer of wireless networks ensures that r...
Abstract—In heterogeneous cellular networks (HCNs), it is desirable to offload mobile users to small...
The challenge of the fifth generation (5G) of wireless systems is to overcome fundamental limits of ...
\u3cp\u3eFuelled by the proliferation of smartphones, wireless traffic has experienced huge growth, ...
As one of the main technologies in 5G networks, Ultra-dense networks (UDNs) can be used to improve t...
In cellular networks, while the motivation behind all basic channel assignment strategies is the bet...
In 5G future wireless networks, the (ultra)-dense deployment of radio access points is a key drive f...
Maximizing system throughput and bandwidth utilization while guaranteeing fairness among users is a ...
This SpringerBrief offers two concrete design examples for traffic offloading. The first is an optim...
Small-cell architecture is widely adopted by cellular network operators to increase network capacity...
We provide a general framework for the problem of data offloading in a heterogeneous wireless networ...
Cell load imbalances in wireless networks degrade performance. Macro and small cell collocated deplo...
In Ultra-Dense Networks, the dense deployment of small cells generates an uneven traffic distributio...
Ultra-Dense Networks (UDNs) can be used to improve coverage. With limited network capacity and the d...
With an ever-increasing number of user equipment (UE) and bandwidth demands of new applications, the...
An efficient resource allocation mechanism in the physical layer of wireless networks ensures that r...
Abstract—In heterogeneous cellular networks (HCNs), it is desirable to offload mobile users to small...
The challenge of the fifth generation (5G) of wireless systems is to overcome fundamental limits of ...
\u3cp\u3eFuelled by the proliferation of smartphones, wireless traffic has experienced huge growth, ...
As one of the main technologies in 5G networks, Ultra-dense networks (UDNs) can be used to improve t...
In cellular networks, while the motivation behind all basic channel assignment strategies is the bet...
In 5G future wireless networks, the (ultra)-dense deployment of radio access points is a key drive f...
Maximizing system throughput and bandwidth utilization while guaranteeing fairness among users is a ...
This SpringerBrief offers two concrete design examples for traffic offloading. The first is an optim...
Small-cell architecture is widely adopted by cellular network operators to increase network capacity...
We provide a general framework for the problem of data offloading in a heterogeneous wireless networ...
Cell load imbalances in wireless networks degrade performance. Macro and small cell collocated deplo...