India-UK advanced technology centre
Lead Research Organisation:
University of Southampton
Department Name: Electronics and Computer Science
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
People |
ORCID iD |
| Lajos Hanzo (Principal Investigator) |
Publications
Botsinis P
(2014)
Fixed-Complexity Quantum-Assisted Multi-User Detection for CDMA and SDMA
in IEEE Transactions on Communications
Dutta A
(2014)
Linear Transceiver Design for an Amplify-and-Forward Relay Based on the MBER Criterion
in IEEE Transactions on Communications
Yang Y
(2014)
A Low-Complexity Cross-Layer Algorithm for Coordinated Downlink Scheduling and Robust Beamforming Under a Limited Feedback Constraint
in IEEE Transactions on Vehicular Technology
Huo Y
(2014)
Two-Dimensional Iterative Source-Channel Decoding for Distributed Video Coding
in IEEE Communications Letters
Yang Y
(2014)
Variable-Rate, Variable-Power Network-Coded-QAM/PSK for Bi-Directional Relaying Over Fading Channels
in IEEE Transactions on Communications
Zhang J
(2014)
Evolutionary-Algorithm-Assisted Joint Channel Estimation and Turbo Multiuser Detection/Decoding for OFDM/SDMA
in IEEE Transactions on Vehicular Technology
Rajashekar R
(2014)
Reduced-Complexity ML Detection and Capacity-Optimized Training for Spatial Modulation Systems
in IEEE Transactions on Communications
Wang L
(2014)
Multiple-Symbol Joint Signal Processing for Differentially Encoded Single- and Multi-Carrier Communications: Principles, Designs and Applications
in IEEE Communications Surveys & Tutorials
Ngo H
(2014)
Hybrid Automatic-Repeat-reQuest Systems for Cooperative Wireless Communications
in IEEE Communications Surveys & Tutorials
Zhang P
(2014)
Embedded Iterative Semi-Blind Channel Estimation for Three-Stage-Concatenated MIMO-Aided QAM Turbo Transceivers
in IEEE Transactions on Vehicular Technology
Di Renzo M
(2014)
Spatial Modulation for Generalized MIMO: Challenges, Opportunities, and Implementation
in Proceedings of the IEEE
Huo Y
(2014)
Layered Wireless Video Relying on Minimum-Distortion Inter-Layer FEC Coding
in IEEE Transactions on Multimedia
Liu W
(2014)
Geometric-Mean-Decomposition-Based Optimal Transceiver for a Class of Two-Hop MIMO-Aided Amplify-and-Forward Relay Channels
in IEEE Transactions on Vehicular Technology
Yang P
(2014)
QRD-Assisted Adaptive Modulation-Aided MIMO Systems
in IEEE Transactions on Vehicular Technology
Dutta A
(2014)
Minimum-Error-Probability CFO Estimation for Muti-User MIMO OFDM Systems
in IEEE Transactions on Vehicular Technology
ALANIS D
(2014)
Quantum-Assisted Routing Optimization for Self-Organizing Networks
in IEEE Access
Aljohani A
(2014)
TTCM-Aided Rate-Adaptive Distributed Source Coding for Rayleigh Fading Channels
in IEEE Transactions on Vehicular Technology
Zhang J
(2014)
The Effective Throughput of MISO Systems Over $\kappa$ -$\mu$ Fading Channels
in IEEE Transactions on Vehicular Technology
Dutta A
(2014)
Channel estimation relying on the minimum bit-error-ratio criterion for BPSK and QPSK signals
in IET Communications
Won S
(2014)
Synchronization issues in relay-aided cooperative MIMO networks
in IEEE Wireless Communications
Zhang J
(2014)
Analysis and Design of Distributed Antenna-Aided Twin-Layer Femto- and Macrocell Networks Relying on Fractional Frequency Reuse
in IEEE Transactions on Vehicular Technology
Feng J
(2014)
Cooperative Medium Access Control Based on Spectrum Leasing
in IEEE Transactions on Vehicular Technology
| Description | Amongst numerous new discoveries published in about 300 IEEE journal and conference papers one of the most innovative solutions we conceived is related to the employment of multiple transmit and receive antennas in mobile phones and in the base-stations providing radio coverage for the handsets. |
| Exploitation Route | The findings were disseminated in about a dozen keynote lectures and 300+ IEEE/IET research papers for further exploitation both by the academic and industrial community. Our industrial partners directly benefitted from these findings and so did our PhD, MSc and UG students. |
| Sectors | Agriculture Food and Drink Digital/Communication/Information Technologies (including Software) Electronics Transport |
| URL | httP://www-mobile.ecs.soton.ac.uk |
| Description | The findings are influencing the standardization of the fifth generation of mobile phone systems across the globe. These findings also inspired many Indian PhD students, several of whom visited Southampton University, accompanied by their Professors. The best links are with IITM in Chennai and IISc in Bombay. These finding also led to the signing of on MOU between Southampton and IITM. This collaboration evolved very successfully along many parallel avenues, including an extended collaboration with the Indian industrial partners. I will be travelling to Chennai and Bangalore for further discussions with Nokia, IBM and many SMEs. Furthermore, I will be giving a keynote lecture at http://www.wispnet2017.org/#keynote -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Updated in 2021 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- This remarkable collaborative project is really having a long-term benefit for many of us in the UK and for our collaborators in India. Explicitly, even after the completion of the project I've coauthored 10 IEEE journal papers with Prof. Aditya Jagannatham of IIT Kanpur, and a similar number of IEEE journal papers with Prof. KVS Hari of the famous IISc in Bangalore as well as with Prof. Sheetal Kalyani of IIT Madras. Many of these contributions influenced the thinking of the 3GPP 5G standardization body in the following research areas: Non-Orthogonal Multiple Access (NOMA), the Internet of Things (IoT), mm-wave communications relaying on sophisticated hybrid beam-forming schemes, Simultaneous Wireless Information and Power Transfer (SWIPT), energy harvesting, mobile edge-computing, spatial modulation, radically new polar codes for the 5G control channels, automatic repeat request schemes for enhancing the link reliability, physical-layer security enhancements, just to name a few. I have also given numerous keynote lectures based on the findings of this exquisite project. It also helped me in drafting my 2.5 Million Euro European Research Council Advanced Fellow Grant. Finally, it also led to a long-term win-win collaboration with BT for my team. As a result, BT have also employed one of my PhD students in ipswich. |
| First Year Of Impact | 2016 |
| Sector | Agriculture, Food and Drink,Creative Economy,Digital/Communication/Information Technologies (including Software),Education,Electronics,Transport |
| Impact Types | Cultural Societal Economic |
| Description | Harnessing Quantum-Computing & Signal Processing in Wireless Communications |
| Organisation | Indian Institute of Technology Madras |
| Country | India |
| Sector | Academic/University |
| PI Contribution | We published several joint 4* papers, which contribute to the REF; |
| Collaborator Contribution | Deriving closed-form equations for characterizing device-to-device communications and IoT |
| Impact | mathematics, information theory, signal processing, computer science, telecommunications engineering |
| Start Year | 2017 |