L
Lajos Hanzo
Researcher at University of Southampton
Publications - 2188
Citations - 69620
Lajos Hanzo is an academic researcher from University of Southampton. The author has contributed to research in topics: Bit error rate & MIMO. The author has an hindex of 101, co-authored 2040 publications receiving 54380 citations. Previous affiliations of Lajos Hanzo include University of New South Wales & Beihang University.
Papers
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Burst-by-burst adaptive joint detection CDMA/H.263 based video telephony
TL;DR: A near-instantaneously adaptive joint-detection code division multiple access (CDMA)-based video transceiver is proposed for wireless video telephony, capable of reconfiguring itself in 1, 2 and 4 bits/symbol direct-sequence CDMA modes and delivering an unimpaired video quality.
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Weighted sum rate maximization of the mmWave cell-free MIMO downlink relying on hybrid precoding
TL;DR: This paper aims for maximizing the weighted sum rate (WSR) of mmWave cell-free MIMO systems by conceiving a low-complexity hybrid precoding algorithm and presents the convergency analysis and complexity analysis of the proposed method.
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Reconfigurable Intelligent Surface (RIS)-Aided Vehicular Networks: Their Protocols, Resource Allocation, and Performance
TL;DR: Two V2X sidelink modes are enhanced by exploiting RISs and their variants, followed by a customized transmission frame structure that partitions the transmission efforts into different phases and effective channel-tracking and resource allocation techniques are developed for attaining a high beamforming gain at low overhead and complexity.
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Cooperative Medium Access Control Based on Spectrum Leasing
TL;DR: Simulation results demonstrate that the proposed WW cooperative medium-access-control (MAC) protocol is capable of providing both substantial rate improvements and considerable energy savings for the cooperative spectrum leasing system.
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On the performance of band-limited asynchronous DS-CDMA over nakagami-m channels
TL;DR: The time-limited waveforms impose a low implementational complexity, however, they are outperformed by the frequency-domain raised-cosine waveform as well as the optimum waveform specifically designed by Cho and Lehnert for achieving the lowest possible bit error rate.