Abstract
Frequencies above 100 GHz are the promising frequency bands for 6G wireless communication systems because of the abundant unexplored and unused spectrum. The increasing global demand for ultra-high spectral efficiencies, data rates, speeds and bandwidths in next-generation wireless networks motivates the exploration of peak capabilities of massive MIMO (Multi–Input–Multi–Output) wireless access technology at THz bands (0.1–10 THz). The smaller wavelengths (order of microns) of these frequencies give an advantage of making high gain antennas with smaller physical dimensions and allows massive spatial multiplexing. This paper presents the design of ultra-massive MIMO (ultra-mMIMO) hybrid beamforming system for multi users and its feasibility to function at THz frequency bands. The functionality of the proposed system is verified at higher order modulation schemes to achieve higher spectral efficiencies using performance metrics that includes error vector magnitude, symbol constellations, and antenna array radiation beams. The performance results suggest to use a particular mMIMO antenna configuration based on number of independent data streams per user and strongly recommended to use higher number of data streams per user in order to achieve higher throughputs that satisfy the needs of 6G wireless systems. Also the performance of the proposed system at 0.14 THz is compared with mmWave systems that operate at 28 GHz and 73 GHz bands to justify the feasibility of the proposed work.
Highlights
As the 5G wireless technology will be inadequate in the near future due to explosive growth of D2D networks like IoT, IIoT, and IoS
The main aim of this article is to propose and design a hybrid beamforming system for 6G wireless networks that consist of ultra-mMIMO antenna array configurations of size varies from 64 to 256 at BS and 4–16 at MS of multiple users that operates at 0.14THz frequency band
The performance measurements at 0.14 THz are conducted and feasibility of the proposed system is verified for higher order QAM modulation schemes, compared with mmWave hybrid beamforming systems that operate at 28–73 GHz bands
Summary
As the 5G wireless technology will be inadequate in the near future due to explosive growth of D2D networks like IoT, IIoT, and IoS. 6G wireless technology is essential which uses terahertz (0.1–10 THz) frequencies of EM spectrum and supports 10–100 GHz bandwidths, data rates of Terabits/sec 6G wireless system architecture is an integrated system of different radio access technologies with ultra-massive scales and dynamic network resources to achieve diverse performance improvements. The main aim of this article is to propose and design a hybrid beamforming system for 6G wireless networks that consist of ultra-mMIMO antenna array configurations of size varies from 64 to 256 at BS and 4–16 at MS of multiple users that operates at 0.14THz frequency band. The performance measurements at 0.14 THz are conducted and feasibility of the proposed system is verified for higher order QAM modulation schemes, compared with mmWave hybrid beamforming systems that operate at 28–73 GHz bands
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