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Multipacket reception in LTE femtocell networks
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Resumo(s)
Driven by the growing demand for high-speed broadband wireless services, LTE technology
has emerged and evolve, promising high data rates to the demanding mobile users.
Based on the 3rd Generation Partnership Project (3GPP) speci cations,Long Term Evo-
lution Advanced (LTE-A) telecommunication services predict the existence of macro base
stations, Enhanced Node B (eNB) and micro stations HeNB with low power that complements
the network's coverage. This dissertation studies the complementary use of HeNBs
(femtocells 3GPP terminology) to provide broadband services. It is essential to maintain
the networks performance with the network densi cation phenomenon, which brings
signi cant interference problems and consequently more collisions and lost packets. The
use of SC-FDE in the downlink of a LTE-A femtocell network - speci cally multipacket
reception (MPR), with an IB-DFE receiver employing Multipacket Detection (MPD) and
SIC techniques is proposed. A new telecommunications concept named GC emerged with
the increasing environmental concerns. This dissertation shows the performance results
of an iterative MPR and proposes a green association algorithm to change the network
layout according to the mobile users demands reducing the Base Station (BS)'s negative
contribution to the network total energy consumption. The overall results show that the
technologies employed are a solution to achieve a favorable trade-o between performance
and Energy E ciency (EE), responding to the global demands (high data rates) and concerns
(low energy consumption and carbon footprint reduction).
Keywords: Long Term Evolution(LTE), Single Carrier with Frequency Domain
Equalization (SC-FDE), Iterative Block-Decision Feedback Equalizer (IB-DFE),
Home enhanced Node B (HeNB), Successive Interference Cancellation(SIC),Multipacket
Reception(MPR), Green Communications (GC)
Descrição
Dissertação apresentada para obtenção do Grau de Mestre em Engenharia Electrotécnica e de Computadores