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When Quantum-Signal Processing & Communications Meet

主讲人 :Prof. Lajos Hanzo,英国皇家工程院院士, IEEE Fellow 地点 :教三楼一层长年报告厅(原136) 开始时间 : 2018-10-25 10:00 结束时间 : 2018-10-25 11:30

讲座内容摘要:

The marriage of ever-more sophisticated signal processing and wireless communications has led to compellingtele-presencesolutions. However, the “quantum” leaps both in digital signal processing theory and in its nano-scale based implementation is set to depart from classical physics obeying the well-understood laws revealed by science. Against the backdrop of numerous open research questions, this presentation will explore some of the topical problems both in quantum-computing aided as well as in quantum-domain signal processing and communications. We will also discuss how the isomorphism of classic and quantum codes may be exploited for mitigating the hostile effects of quantum-decoherence, which results in quantum-bit flips.

 

                                                 

主讲人介绍:

Prof. Lajos Hanzo is an IEEE Distinguished Lecturer of both the Communications Society and the Vehicular Society as well as a Fellow of both the IEEE and the IEE/IET, Fellow of the Royal Academy of Engineering. Since 1986 he has been a member of academic staff in the School of Electronics and Computer Science, University of Southampton, UK, where he currently holds the Chair in Telecommunications and he is head of the Communications Research Area. He has been awarded a number of distinctions, most recently the IEEE Wireless Technical Committee Achievement Award (2007), the IET Sir Monti Finniston Achievement Award across all disciplines of engineering (2008) and an Honorary Doctorate of the Technical University of Budapest (2010).

Lajos Hanzo has co-authored 20 John Wiley/IEEE Press books totalling about 10 000 pages on mobile radio communications, and published more than 1200 research papers and book chapters at IEEE Xplore.

Currently he heads an academic research team working on a range of research projects in the field of wireless multimedia communications aiming for flawless telepresence, supported by rich three-dimensional audio/video communications.

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