5G mm-Wave Transmission Upgrade via Optimised Channel Estimation, Precoding, and NOMA
Keywords:
5G Wireless Networks, Millimeter Wave Communication, Massive MIMO, Compressed Sensing, Hybrid Precoding, Non- Orthogonal Multiple Access, Channel Estimation, Pilot Contamination, Spectral Efficiency, Beamforming, Successive Interference Cancellation.Abstract
The worldwide shortage of microwave bandwidth has emerged as a critical limitation threatening the evolution of next-generation wireless networks. This scarcity poses significant challenges for emerging applications including massive Machine Type Communication (mMTC), enhanced Mobile Broadband (eMBB), and Ultra Reliable Low Latency Communications (URLLC).
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Published
2024-08-12
How to Cite
Allanki Sanyasi Rao, Dr. Alok Pandey. (2024). 5G mm-Wave Transmission Upgrade via Optimised Channel Estimation, Precoding, and NOMA. International Journal of Multidisciplinary Innovation and Research Methodology, ISSN: 2960-2068, 3(3), 541–546. Retrieved from https://ijmirm.com/index.php/ijmirm/article/view/247
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Copyright (c) 2024 International Journal of Multidisciplinary Innovation and Research Methodology, ISSN: 2960-2068
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
