Please use this identifier to cite or link to this item: http://localhost/handle/Hannan/222638
Title: An Overview of Massive MIMO Technology Components in METIS
Authors: Gabor Fodor;Nandana Rajatheva;Wolfgang Zirwas;Lars Thiele;Martin Kurras;Kaifeng Guo;Antti Tolli;Jesper H. Sorensen;Elisabeth de Carvalho
Year: 2017
Publisher: IEEE
Abstract: As the standardization of full-dimension MIMO systems in the Third Generation Partnership Project progresses, the research community has started to explore the potential of very large arrays as an enabler technology for meeting the requirements of fifth generation systems. Indeed, in its final deliverable, the European 5G project METIS identifies massive MIMO as a key 5G enabler and proposes specific technology components that will allow the cost-efficient deployment of cellular systems taking advantage of hundreds of antennas at cellular base stations. These technology components include handling the inherent pilot-data resource allocation trade-off in a near optimal fashion, a novel random access scheme supporting a large number of users, coded channel state information for sparse channels in frequency- division duplexing systems, managing user grouping and multi-user beamforming, and a decentralized coordinated transceiver design. The aggregate effect of these components enables massive MIMO to contribute to the METIS objectives of delivering very high data rates and managing dense populations.
URI: http://localhost/handle/Hannan/222638
volume: 55
issue: 6
More Information: 155,
161
Appears in Collections:2017

Files in This Item:
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7946939.pdf223.34 kBAdobe PDF
Title: An Overview of Massive MIMO Technology Components in METIS
Authors: Gabor Fodor;Nandana Rajatheva;Wolfgang Zirwas;Lars Thiele;Martin Kurras;Kaifeng Guo;Antti Tolli;Jesper H. Sorensen;Elisabeth de Carvalho
Year: 2017
Publisher: IEEE
Abstract: As the standardization of full-dimension MIMO systems in the Third Generation Partnership Project progresses, the research community has started to explore the potential of very large arrays as an enabler technology for meeting the requirements of fifth generation systems. Indeed, in its final deliverable, the European 5G project METIS identifies massive MIMO as a key 5G enabler and proposes specific technology components that will allow the cost-efficient deployment of cellular systems taking advantage of hundreds of antennas at cellular base stations. These technology components include handling the inherent pilot-data resource allocation trade-off in a near optimal fashion, a novel random access scheme supporting a large number of users, coded channel state information for sparse channels in frequency- division duplexing systems, managing user grouping and multi-user beamforming, and a decentralized coordinated transceiver design. The aggregate effect of these components enables massive MIMO to contribute to the METIS objectives of delivering very high data rates and managing dense populations.
URI: http://localhost/handle/Hannan/222638
volume: 55
issue: 6
More Information: 155,
161
Appears in Collections:2017

Files in This Item:
File SizeFormat 
7946939.pdf223.34 kBAdobe PDF
Title: An Overview of Massive MIMO Technology Components in METIS
Authors: Gabor Fodor;Nandana Rajatheva;Wolfgang Zirwas;Lars Thiele;Martin Kurras;Kaifeng Guo;Antti Tolli;Jesper H. Sorensen;Elisabeth de Carvalho
Year: 2017
Publisher: IEEE
Abstract: As the standardization of full-dimension MIMO systems in the Third Generation Partnership Project progresses, the research community has started to explore the potential of very large arrays as an enabler technology for meeting the requirements of fifth generation systems. Indeed, in its final deliverable, the European 5G project METIS identifies massive MIMO as a key 5G enabler and proposes specific technology components that will allow the cost-efficient deployment of cellular systems taking advantage of hundreds of antennas at cellular base stations. These technology components include handling the inherent pilot-data resource allocation trade-off in a near optimal fashion, a novel random access scheme supporting a large number of users, coded channel state information for sparse channels in frequency- division duplexing systems, managing user grouping and multi-user beamforming, and a decentralized coordinated transceiver design. The aggregate effect of these components enables massive MIMO to contribute to the METIS objectives of delivering very high data rates and managing dense populations.
URI: http://localhost/handle/Hannan/222638
volume: 55
issue: 6
More Information: 155,
161
Appears in Collections:2017

Files in This Item:
File SizeFormat 
7946939.pdf223.34 kBAdobe PDF