Samuel Okechukwu Okozi

Work place: Federal University of Technology, Owerri, Nigeria

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Research Interests: Electronic Engineering, Electrical Engineering

Biography

Samuel Okechukwu Okozi received his B. Eng, in Electrical and Electronic Engineering from the Federal University of Technology Owerri (FUTO). His obtained M. Eng and Ph.D in Electrical Engineering at University of Nigeria Nsukka (UNN). He is a Senior Lecturer in the Department of Electrical and Electronic Engineering at the Federal University of Technology Owerri, Nigeria. He is a registered member of Nigerian Society of Engineers (NSE), and Council for the Regulation of Engineering in Nigeria 

Author Articles
Development of a New Diversity Scheme in 5G Network at 28 GHz Millimter-wave Frequency for Digital Mobile System

By Akinyinka Olukunle Akande Cosmas Kemisdrin Agubor Olusola Kunle Akinde Longinus Sunday Ezema Samuel Okechukwu Okozi

DOI: https://doi.org/10.5815/ijwmt.2021.01.05, Pub. Date: 8 Feb. 2021

This paper presents an improved hybrid Equal Gain Combiner-Maximal Ratio Combiner (EGC-MRC) diversity scheme in 5G millimeter wave (mm-wave) frequency. The term 5G mm-wave refers to the radio frequency spectrum between 24 GHz and 100 GHz. The signal interference is a challenging task in 5G mm-wave frequency, and radio network suffer from co-channel and adjacent channel interference. 5G network deployment depends on large number of antennas, which resulted in signal interference. The conventional receiver’s diversity techniques have high hardware complexity and are characterized by low performance. A new hybrid EGC-MRC diversity scheme was proposed as an improvement on the performance of existing MRC scheme. In achieving this, Probability Density Function (PDF) of the hybrid model was derived using the instantaneous Signal-to- Noise Ratio (SNR) obtained from the output of MRC and EGC diversity schemes. The performance of the developed model was evaluated using Outage Probability 〖(P〗_out) and Processing time (P_t)  at different SNR with L number of paths. Simulation of the MRC, EGC and hybrid EGC-MRC models were carried out using MATLAB 2018a and the results compared. The output results showed that hybrid EGC-MRC performed better than EGC and MRC by having a lower P_out   and〖 P〗_t. This new model has the potential to mitigate network interference, multipath propagation, and hardware complexity in 5G mm-wave frequency. Therefore, the developed model can be deployed by network operators to solve signal interference in 5G network.

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