16 research outputs found
An Application-Aware Spectrum Sharing Approach for Commercial Use of 3.5 GHz Spectrum
In this paper, we introduce an application-aware spectrum sharing approach
for sharing the Federal under-utilized 3.5 GHz spectrum with commercial users.
In our model, users are running elastic or inelastic traffic and each
application running on the user equipment (UE) is assigned a utility function
based on its type. Furthermore, each of the small cells users has a minimum
required target utility for its application. In order for users located under
the coverage area of the small cells' eNodeBs, with the 3.5 GHz band resources,
to meet their minimum required quality of experience (QoE), the network
operator makes a decision regarding the need for sharing the macro cell's
resources to obtain additional resources. Our objective is to provide each user
with a rate that satisfies its application's minimum required utility through
spectrum sharing approach and improve the overall QoE in the network. We
present an application-aware spectrum sharing algorithm that is based on
resource allocation with carrier aggregation to allocate macro cell permanent
resources and small cells' leased resources to UEs and allocate each user's
application an aggregated rate that can at minimum achieves the application's
minimum required utility. Finally, we present simulation results for the
performance of the proposed algorithm.Comment: Submitted to IEE
A Price Selective Centralized Algorithm for Resource Allocation with Carrier Aggregation in LTE Cellular Networks
In this paper, we consider a resource allocation with carrier aggregation
optimization problem in long term evolution (LTE) cellular networks. In our
proposed model, users are running elastic or inelastic traffic. Each user
equipment (UE) is assigned an application utility function based on the type of
its application. Our objective is to allocate multiple carriers resources
optimally among users in their coverage area while giving the user the ability
to select one of the carriers to be its primary carrier and the others to be
its secondary carriers. The UE's decision is based on the carrier price per
unit bandwidth. We present a price selective centralized resource allocation
with carrier aggregation algorithm to allocate multiple carriers resources
optimally among users while providing a minimum price for the allocated
resources. In addition, we analyze the convergence of the algorithm with
different carriers rates. Finally, we present simulation results for the
performance of the proposed algorithm.Comment: Submitted to IEE