AN IMPROVEMENT METHOD FOR MASSIVE MULTIPLEINPUT MULTIPLE-OUTPUT (MIMO) SYSTEM
DEPLOYMENT


Lijun Han1*, Ling Weay Ang2 & Sellappan Palaniappan3

1*,2,3School of Information Technology, Malaysia University of Science & Technology,
Petaling Jaya, Malaysia
1*This email address is being protected from spambots. You need JavaScript enabled to view it., 2This email address is being protected from spambots. You need JavaScript enabled to view it., 3This email address is being protected from spambots. You need JavaScript enabled to view it.



ABSTRACT


This paper proposes a novel method for deploying massive multiple-input multiple-output (MIMO) systems, an essential component of next-generation wireless networks. The proposed method is designed to address the challenges of deploying MIMO systems in practical scenarios, including the selection of optimal antenna configurations and the need for efficient use of available resources. The method uses advanced machine learning techniques to optimize the deployment of MIMO systems, considering a variety of factors such as channel characteristics, interference, and network topology. The results of the systematic review show that the combination of channel coding technology and antenna diversity technology can significantly increase the capacity of 5G wireless communication systems, provide diversity and coding benefits for wireless transmission, and enable higher frequency band utilization than conventional single antenna systems. The proposed method has been shown to significantly improve the performance of MIMO systems in a variety of scenarios, making it a promising approach for the deployment of MIMO systems in future wireless networks.


Keywords: High-Speed and High-Quality Wireless Data Transmission, Multiple Input Multiple Output (MIMO) Systems, Space Time Coding (STC), 5G Wireless communication Systems

 

Published On: 10 April 2023

 

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