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Downlink FTP Performance of Heterogeneous Networks for LTE-Advanced

This paper discusses the need and enabling mechanisms for a heterogeneous deployment model in LTE networks, where lower power nodes are deployed in a macro network. Cell range expansion, enabled through cell biasing and adaptive resource partitioning, is seen as an effective method to balance the lo...

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Main Authors:	Vajapeyam, M., Damnjanovic, A., Montojo, J., Tingfang Ji, Yongbin Wei, Malladi, D.
Format:	Conference Proceeding
Language:	eng ; jpn
Subjects:	Base stations Downlink Interference Receivers Simulation Stability analysis Throughput
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creator	Vajapeyam, M. Damnjanovic, A. Montojo, J. Tingfang Ji Yongbin Wei Malladi, D.
description	This paper discusses the need and enabling mechanisms for a heterogeneous deployment model in LTE networks, where lower power nodes are deployed in a macro network. Cell range expansion, enabled through cell biasing and adaptive resource partitioning, is seen as an effective method to balance the load among the nodes in the network and to improve overall trunking efficiency. Interference cancellation receiver plays a crucial role to ensure acquisition of weak cells and reliability of control and data reception in the presence of legacy signal. System simulations results for an FTP traffic model indicate that, for a pico cell deployment with density of 4 picos per macro cell, 40% or more performance gain can be achieved when techniques enabling cell range expansion are deployed.
doi_str_mv	10.1109/iccw.2011.5963550
format	conference_proceeding
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language	eng ; jpn
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Base stations Downlink Interference Receivers Simulation Stability analysis Throughput
title	Downlink FTP Performance of Heterogeneous Networks for LTE-Advanced
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