Lajos Hanzo
Lajos Hanzo (http://www-mobile.ecs.soton.ac.uk) FREng, FIEEE,
FIET, Fellow of EURASIP, DSc received his degree in electronics in
1976 and his doctorate in 1983. In 2009 he was awarded an honorary
doctorate by the Technical University of Budapest and in 2015 by the
University of Edinburgh. In 2016 he was admitted to the Hungarian
Academy of Science. During his 40-year career in telecommunications he
has held various research and academic posts in Hungary, Germany and
the UK. Since 1986 he has been with the School of Electronics and
Computer Science, University of Southampton, UK, where he holds the
chair in telecommunications. He has successfully supervised 111
PhD students, co-authored 18 John Wiley/IEEE Press books on mobile
radio communications totalling in excess of 10 000 pages, published
1600+ research contributions at IEEE Xplore, acted both as TPC and General
Chair of IEEE conferences, presented keynote lectures and has been
awarded a number of distinctions. Currently he is directing a
60-strong academic research team, working on a range of research
projects in the field of wireless multimedia communications sponsored
by industry, the Engineering and Physical Sciences Research Council
(EPSRC) UK, the European Research Council's Advanced Fellow Grant and
the Royal Society's Wolfson Research Merit Award. He is an
enthusiastic supporter of industrial and academic liaison and he
offers a range of industrial courses. He is also a Governor of the
IEEE VTS. During 2008 - 2012 he was the Editor-in-Chief of the IEEE
Press and a Chaired Professor also at Tsinghua University, Beijing.
For further information on research in progress and associated
publications please refer to http://www-mobile.ecs.soton.ac.uk Lajos
has 27 000+ citations and an H-index of 63.
FIET, Fellow of EURASIP, DSc received his degree in electronics in
1976 and his doctorate in 1983. In 2009 he was awarded an honorary
doctorate by the Technical University of Budapest and in 2015 by the
University of Edinburgh. In 2016 he was admitted to the Hungarian
Academy of Science. During his 40-year career in telecommunications he
has held various research and academic posts in Hungary, Germany and
the UK. Since 1986 he has been with the School of Electronics and
Computer Science, University of Southampton, UK, where he holds the
chair in telecommunications. He has successfully supervised 111
PhD students, co-authored 18 John Wiley/IEEE Press books on mobile
radio communications totalling in excess of 10 000 pages, published
1600+ research contributions at IEEE Xplore, acted both as TPC and General
Chair of IEEE conferences, presented keynote lectures and has been
awarded a number of distinctions. Currently he is directing a
60-strong academic research team, working on a range of research
projects in the field of wireless multimedia communications sponsored
by industry, the Engineering and Physical Sciences Research Council
(EPSRC) UK, the European Research Council's Advanced Fellow Grant and
the Royal Society's Wolfson Research Merit Award. He is an
enthusiastic supporter of industrial and academic liaison and he
offers a range of industrial courses. He is also a Governor of the
IEEE VTS. During 2008 - 2012 he was the Editor-in-Chief of the IEEE
Press and a Chaired Professor also at Tsinghua University, Beijing.
For further information on research in progress and associated
publications please refer to http://www-mobile.ecs.soton.ac.uk Lajos
has 27 000+ citations and an H-index of 63.
less
Uploads
Videos by Lajos Hanzo
3rd generation partnership projects long-term evolution advanced (3GPP-LTE-A), constitutes a promising technology of addressing the above-mentioned challenges in 5G networks by accommodating several users within the same orthogonal resource block. By doing so, significant bandwidth efficiency enhancement can be attained over conventional orthogonal multiple access (OMA) techniques. In this context, we provide a historic perspective on this promising subject.
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. We embark on a journey into the weird & wonderful world of quantum-physics, where the traveller has to obey the sometimes strange new rules of the quantum-world.
Hence we ask the judicious question: can the marriage of applied signal processing and communications extented beyond the classical world into the quantum world?
Please join this exciting journey valued Colleague!
Papers by Lajos Hanzo
3rd generation partnership projects long-term evolution advanced (3GPP-LTE-A), constitutes a promising technology of addressing the above-mentioned challenges in 5G networks by accommodating several users within the same orthogonal resource block. By doing so, significant bandwidth efficiency enhancement can be attained over conventional orthogonal multiple access (OMA) techniques. In this context, we provide a historic perspective on this promising subject.
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. We embark on a journey into the weird & wonderful world of quantum-physics, where the traveller has to obey the sometimes strange new rules of the quantum-world.
Hence we ask the judicious question: can the marriage of applied signal processing and communications extented beyond the classical world into the quantum world?
Please join this exciting journey valued Colleague!