His main research concerns MIMO, Fading, Electronic engineering, Communication channel and Telecommunications link. His MIMO research incorporates themes from Maximal-ratio combining, Control theory, Mathematical optimization, Spectral efficiency and Signal processing. His work carried out in the field of Fading brings together such families of science as Upper and lower bounds and Topology.
His Electronic engineering research is multidisciplinary, incorporating elements of Transmitter, Relay, Transmission and Bit error rate. His Communication channel research integrates issues from Computer network, Bandwidth, Interference and Transmitter power output. Michail Matthaiou interconnects Multi-user MIMO, Minimum mean square error, Pilot power, Scheduling and Channel state information in the investigation of issues within Telecommunications link.
Michail Matthaiou spends much of his time researching MIMO, Communication channel, Fading, Electronic engineering and Spectral efficiency. His MIMO study incorporates themes from Control theory, Base station, Channel state information, Antenna and Telecommunications link. The concepts of his Communication channel study are interwoven with issues in Algorithm, Transmission, Transmitter power output and Interference.
He has researched Fading in several fields, including Signal-to-noise ratio and Upper and lower bounds, Topology. His Electronic engineering study integrates concerns from other disciplines, such as Wireless, Radio frequency, Transmitter and Communications system. In his study, Decoding methods is strongly linked to Relay, which falls under the umbrella field of Spectral efficiency.
His scientific interests lie mostly in MIMO, Communication channel, Telecommunications link, Electronic engineering and Algorithm. His research in MIMO intersects with topics in Wireless, Duplex, Key, Antenna and Topology. The study incorporates disciplines such as Beamforming, Antenna array and Wideband in addition to Communication channel.
His Telecommunications link research is multidisciplinary, incorporating perspectives in Channel state information, Computer engineering and Fading. His study explores the link between Fading and topics such as Autoencoder that cross with problems in Decoding methods. His Electronic engineering study combines topics in areas such as Extremely high frequency and Multiple antenna.
Michail Matthaiou focuses on Key, MIMO, Communication channel, Spectral efficiency and Communications system. His studies in MIMO integrate themes in fields like Wireless and Throughput. Michail Matthaiou combines subjects such as Transmission and Antenna array with his study of Communication channel.
His research integrates issues of Cluster analysis and Fading in his study of Transmission. His work focuses on many connections between Spectral efficiency and other disciplines, such as Telecommunications link, that overlap with his field of interest in Channel state information. Within one scientific family, Michail Matthaiou focuses on topics pertaining to Antenna under Communications system, and may sometimes address concerns connected to Acoustics and Point.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Millimeter Wave Communications for Future Mobile Networks
Ming Xiao;Shahid Mumtaz;Yongming Huang;Linglong Dai.
IEEE Journal on Selected Areas in Communications (2017)
Power Scaling of Uplink Massive MIMO Systems With Arbitrary-Rank Channel Means
Qi Zhang;Shi Jin;Kai-Kit Wong;Hongbo Zhu.
IEEE Journal of Selected Topics in Signal Processing (2014)
Multipair Full-Duplex Relaying With Massive Arrays and Linear Processing
Hien Quoc Ngo;Himal A. Suraweera;Michail Matthaiou;Erik G. Larsson.
IEEE Journal on Selected Areas in Communications (2014)
Massive MIMO with Non-Ideal Arbitrary Arrays: Hardware Scaling Laws and Circuit-Aware Design
Emil Bjornson;Michail Matthaiou;Merouane Debbah.
IEEE Transactions on Wireless Communications (2015)
Beam Division Multiple Access Transmission for Massive MIMO Communications
Chen Sun;Xiqi Gao;Shi Jin;Michail Matthaiou.
IEEE Transactions on Communications (2015)
A New Look at Dual-Hop Relaying: Performance Limits with Hardware Impairments
Emil Bjornson;Michail Matthaiou;Merouane Debbah.
IEEE Transactions on Communications (2013)
On the Total Energy Efficiency of Cell-Free Massive MIMO
Hien Quoc Ngo;Le-Nam Tran;Trung Q. Duong;Michail Matthaiou.
IEEE Transactions on Green Communications and Networking (2018)
ENORM: A Framework For E dge NO de R esource M anagement
Nan Wang;Blesson Varghese;Michail Matthaiou;Dimitrios S. Nikolopoulos.
IEEE Transactions on Services Computing (2020)
Uplink Performance Analysis of Multicell MU-SIMO Systems With ZF Receivers
Hien Quoc Ngo;Michail Matthaiou;Trung Q. Duong;Erik G. Larsson.
IEEE Transactions on Vehicular Technology (2013)
Prospective Multiple Antenna Technologies for Beyond 5G
Jiayi Zhang;Emil Björnson;Michail Matthaiou;Derrick Wing Kwan Ng.
IEEE Journal on Selected Areas in Communications (2020)
Profile was last updated on December 6th, 2021.
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