BEGIN:VCALENDAR VERSION:2.0 PRODID:-//132.216.98.100//NONSGML kigkonsult.se iCalcreator 2.20.4// BEGIN:VEVENT UID:20260522T070320EDT-6416nTvJGc@132.216.98.100 DTSTAMP:20260522T110320Z DESCRIPTION: \n\nAbstract\n\nThe massive multiple-input multiple-output (mM IMO) technology brings great potential for supporting various emerging app lications by means of large antenna arrays\, high beamforming gain\, enhan ced spectral efficiency\, and coverage. Two-stage hybrid beamforming (HBF) has been proposed as a promising architecture for a reduced hardware cost /complexity in mMIMO systems. HBF employs a low number of radio-frequency (RF) chains to interconnect analog RF beamformer and digital baseband (BB) precoder/combiner. In this thesis\, we propose novel HBF techniques for v arious mMIMO systems for half-duplex or full-duplex communications. We aim to address a set of versatile objectives\, such as user grouping\, beamfo rming optimization\, interference mitigation\, sum-rate maximization\, fai rness\, energy efficiency\, self-interference cancellation (SIC)\, and low channel estimation overhead.\n\n \n\nFirst\, we investigate the half-dupl ex mMIMO wireless communications. For the single-cell downlink transmissio n\, we initially develop a user-grouping algorithm for efficient clusterin g in the multi-user mMIMO (MU-mMIMO) systems. Afterwards\, the proposed RF beamformer design aims to jointly reduce hardware cost/complexity\, maxim ize the beamforming gain in the intended direction\, mitigate the inter-gr oup interference\, and lower the channel estimation overhead size. For thi s purpose\, we build the RF beamformer via slow time-varying channel state information (CSI)\, i.e.\, angular parameters. Then\, the BB-stage is con structed via the reduced-size effective instantaneous CSI. During the BB-s tage design\, in addition to equal power allocation\, we propose to apply artificial intelligence (AI)-based solutions for sum-rate maximization and fairness objectives. According to the cloud radio access network (C-RAN)\ , we also investigate cooperation strategies among the base stations in th e multi-cell downlink transmission\, where our primary objectives include mitigating the effect of inter-cell interference and enhancing the sum-rat e capacity\, especially for cell-edge users. Later on\, we analyze the eff ect of low-resolution hardware components in HBF for the point-to-point mM IMO (P2P-mMIMO) systems.\n\n \n\nSecond\, we explore the full-duplex mMIMO wireless communications. Full-duplex technology further extends the impac ts of mMIMO systems by enabling simultaneous transmission/reception over t he same frequency to theoretically double the spectral efficiency of the c onventional half-duplex operation. However\, strong self-interference is p otentially the major limiting factor in the full-duplex operation. For thi s\, we introduce HBF techniques for full-duplex P2P-mMIMO and MU-mMIMO sys tems. Along with the above-mentioned objectives in the RF beamformer desig n\, we also aim to successfully cancel the strong self-interference by pro posing and developing both orthogonal and non-orthogonal beamforming schem es. Illustrative results indicate that the proposed full-duplex HBF techni ques achieve large SIC sufficient to double the capacity of their half-dup lex counterparts.\n DTSTART:20221014T170000Z DTEND:20221014T190000Z LOCATION:\, Room 603\, McConnell Engineering Building\, CA\, QC\, Montreal\ , H3A 0E9\, 3480 rue University SUMMARY:PhD defence of Asil Koc - Hybrid Beamforming Techniques in Full-Dup lex/Half-Duplex Massive MIMO Wireless Communications URL:/ece/channels/event/phd-defence-asil-koc-hybrid-be amforming-techniques-full-duplexhalf-duplex-massive-mimo-wireless-342723 END:VEVENT END:VCALENDAR