Search results for "Heterogeneous cellular networks"

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Decoupled Downlink-Uplink Coverage Analysis with Interference Management for Enriched Heterogeneous Cellular Networks

2016

Heterogeneous cellular networks (HetCNets) offer a promising solution to cope with the current cellular coverage crunch. Due to the large transmit power disparity, while following maximum power received (MPR) association scheme, a larger number of users are associated with macro-cell BS (MBS) than small-cell BSs (SBSs). Therefore, an imbalance load arrangement takes place across the HetCNets. Hence, using cell range expansion-based cell association, we can balance the load across the congested MBS. However, using MPR association scheme, users’ offloading leads to two challenges: 1) macro-cell interference , in which the MBS interferes with the offloaded users, and 2) coupled downlink-uplink…

Heterogeneous cellular networksGeneral Computer ScienceComputer science02 engineering and technologyInterference (wave propagation)Frequency allocationsmall-cell BSsLoad managementBase stationcoverage performance0203 mechanical engineeringTelecommunications linkreverse frequency allocation0202 electrical engineering electronic engineering information engineeringGeneral Materials Sciencedecoupled downlink-uplink associationbusiness.industryGeneral Engineering020302 automobile design & engineering020206 networking & telecommunicationsTransmitter power outputCellular networklcsh:Electrical engineering. Electronics. Nuclear engineeringbusinesslcsh:TK1-9971Computer networkIEEE Access

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Analysis of load balancing and interference management in heterogeneous cellular networks

2017

To meet the current cellular capacity demands, proactive offloading is required in heterogeneous cellular networks (HetCNets) comprising of different tiers of base stations (BSs), e.g., small-cell BSs (sBSs) and conventional macro-cell BSs (mBSs). Each tier differs from the others in terms of BS transmit power, spatial density, and association bias. Consequently, the coverage range of each tier BSs is also different from others. Due to low transmit power, a fewer number of users are associated to an sBS as compared with mBS. Thus, inefficient utilization of small-cell resources occurs. To balance the load across the network, it is necessary to push users to the underloaded small cells from …

Heterogeneous cellular networksGeneral Computer ScienceComputer science02 engineering and technologyselective sBS deploymentFrequency allocationBase stationLoad managementsmall-cell BSs0203 mechanical engineering0202 electrical engineering electronic engineering information engineeringreverse frequency allocationGeneral Materials ScienceNetwork performanceuser ratebusiness.industrycoverage probabilityGeneral Engineering020302 automobile design & engineering020206 networking & telecommunicationsLoad balancing (computing)Transmitter power outputCellular networklcsh:Electrical engineering. Electronics. Nuclear engineeringbusinesslcsh:TK1-9971Computer network

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