Journal of Telecommunication Study

MIMO stands for Multiple input multiple output, is considered as onevof thevpillar’s for the cellular communication networks. InvMIMOvtechnology, multiplevantennasvarevplaced atvboth transmittervandvreceiver. The primary goal of thevMIMO isvto enhance thevcapacity, coveragevand throughputvof the wireless communicationvsystems. MIMO alsovcontrols thevoverall antenna patternvforvinterferencevreduction. For its abilityvto deliverva largervspectral efficiency, MIMOvis consideredvas keyvtechnology for cellularvnetworks. Constructingvantenna arraysvat bothvtransmitter andvreceivervside will also improvesvthevdirectivity, therebyvthevlongvdistance communicationbis possible. Inbthisbwork, 2x2, 4x4bandb8x8 MIMObconfigurationsbwas implemented. Simulationscareccarriedcout usingbKeysights’s SYSTEMVUE whichbis system level designingbtool. Precodingbis donebusingbMATLAB. Qualitybof service (QoS) parameterbsuch asbBitberror rate (BER)bisbanalyzed forbeachbcases.

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Hongjie Hu, Hui Gao, Zhongfeng Li, Youtuan Zhu, “A Sub 6GHz Massive MIMO System for 5G New Radio”, Wireless Network Business Unit, Huawei Technologies, Shanghai, China,-978-1-5090-5932-4/17/$31.00©2017 IEEE

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Jian Qiao, Xuemin (Sherman) Shen, Jon W. Mark, Qinghua Shen, Yejun He, and Lei Lei, “Enabling Device-to-Device Communications in Millimeter-Wave 5G Cellular Networks”, IEEE Communications Magazine, January 2015 0163-6804/15/$25.00 © 2015 IEEE.

PANG Xingdong, HONG Wei, YANG Tianyang, LI Linsheng, “Design and Implementation of An Active Multibeam Antenna System with 64 RF Channels and 256 Antenna Elements for Massive MIMO Application in 5G Wireless Communications”, State Key Laboratory of Millimeter Waves, Southeast University, Nanjing210096, P.R.China-2014, China Communications-November 2014.

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