A Unified Multiple Access Framework for Next Generation Mobile Networks By Removing Orthogonality (MANGO)
Lead Research Organisation:
University of Edinburgh
Department Name: Sch of Engineering
Abstract
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Organisations
Publications
Biswas S
(2021)
In-Band Full-Duplex Dynamic Spectrum Sharing in Beyond 5G Networks
in IEEE Communications Magazine
Biswas S
(2020)
Design and Analysis of FD MIMO Cellular Systems in Coexistence With MIMO Radar
in IEEE Transactions on Wireless Communications
Garg N
(2021)
Rate-Energy Balanced Precoding Design for SWIPT Based Two-Way Relay Systems
in IEEE Journal of Selected Topics in Signal Processing
Garg N
(2020)
Precoder Feedback Schemes for Robust Interference Alignment With Bounded CSI Uncertainty
in IEEE Transactions on Signal and Information Processing over Networks
Garg N
(2021)
Function Approximation Based Reinforcement Learning for Edge Caching in Massive MIMO Networks
in IEEE Transactions on Communications
Garg N
(2020)
Decentralized Coded Caching For Interference Networks
Description | We studied downlink sum rate maximization in non-orthogonal multiple access systems. Numerical examples reveal a superior performance, compared to conventional orthogonal schemes, achieving higher data rates combined with reduced transmit power. We studied the NOMA scheme with full-duplex radio and published paper - K. Singh, K. Wang, S. Biswas, Z. Ding, F. Khan, and T. Ratnarajah, "Resource Optimization in Full Duplex Non-orthogonal Multiple Access Systems," IEEE Trans on Wireless Communications, Vol. 18, No. 9, pp. 4312-4325, Sep. 2019. |
Exploitation Route | Publications We are currently working with local industry Calnex and international telecom industry Huawei and exploiting our research knowledge. Also including the research finding in our teaching syllabus (Advanced wireless communications and Array Signal Processing). |
Sectors | Digital/Communication/Information Technologies (including Software) Education |
URL | http://www.profratnarajah.org/ |
Description | We are currently working with local industry Calnex and international telecom industry Huawei and exploiting our research knowledge. Also including the research finding in our teaching syllabus (Advanced wireless communications and Array Signal Processing and MIMO System). Obtained grant from Huawei £230K |
First Year Of Impact | 2019 |
Sector | Digital/Communication/Information Technologies (including Software),Education |
Impact Types | Economic |