Oluseun Oyeleke

Work place: Dept of Computer Engineering Nile University, FCT Abuja Nigeria

E-mail: contactseun@gmail.com


Research Interests: Wireless Communication


Oluseun D Oyeleke is a Master degree holder in Electronics and Communication Engineering and a current Ph.D. Student in Telecommunication. His focus is on 5G/6G wireless communication, Massive MIMO, MIMO and Machine learning for wireless telecommunication. He has over 12 years of lecturing experience and is currently an academic staff with the Nile University of Nigeria.

Author Articles
Digital Control and Management of Water Supply Infrastructure Using Embedded Systems and Machine Learning

By Martin C. Peter Steve Adeshina Olabode Idowu-Bismark Opeyemi Osanaiye Oluseun Oyeleke

DOI: https://doi.org/10.5815/ijisa.2023.05.01, Pub. Date: 8 Oct. 2023

Water supply infrastructure operational efficiency has a direct impact on the quantity of portable water available to end users. It is commonplace to find water supply infrastructure in a declining operational state in rural and some urban centers in developing countries. Maintenance issues result in unabated wastage and shortage of supply to users. This work proposes a cost-effective solution to the problem of water distribution losses using a Microcontroller-based digital control method and Machine Learning (ML) to forecast and manage portable water production and system maintenance. A fundamental concept of hydrostatic pressure equilibrium was used for the detection and control of leakages from pipeline segments. The results obtained from the analysis of collated data show a linear direct relationship between water distribution loss and production quantity; an inverse relationship between Mean Time Between Failure (MTBF) and yearly failure rates, which are the key problem factors affecting water supply efficiency and availability. Results from the prototype system test show water supply efficiency of 99% as distribution loss was reduced to 1% due to Line Control Unit (LCU) installed on the prototype pipeline. Hydrostatic pressure equilibrium being used as the logic criteria for leak detection and control indeed proved potent for significant efficiency improvement in the water supply infrastructure.

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5G Small Cell Backhaul: A Solution Based on GSM-Aided Hybrid Beamforming

By Olabode Idowu-Bismark Oluseun Oyeleke Aderemi A. Atayero Francis Idachaba

DOI: https://doi.org/10.5815/ijcnis.2019.08.03, Pub. Date: 8 Aug. 2019

In the proposed 5G architecture where cell densification is expected to be used for network capacity enhancement, the deployment of millimetre wave (mmWave) massive multiple-input multiple-output (MIMO) in urban microcells located outdoor is expected to be used for high channel capacity small cell wireless traffic backhauling as the use of copper and optic-fibre cable becomes infeasible owing to the high cost and issues with right of way. The high cost of radio frequency (RF) chain and its prohibitive power consumption are big drawbacks for mmWave massive MIMO transceiver implementation and the complexity of using optimal detection algorithm as a result of inter-channel interference (ICI) as the base station antenna approaches large numbers. Spatial modulation (SM) and Generalized Spatial Modulation (GSM) are new novel techniques proposed as a low-complexity, low cost and low-power-consumption MIMO candidate with the ability to further reduce the RF chain for mmWave massive MIMO hybrid beamforming systems. In this work, we present the principles of generalized spatial modulation aided hybrid beamforming (GSMA-HBF) and its use for cost-effective, high energy efficient mmWave massive MIMO transceiver for small cell wireless backhaul in a 5G ultra-dense network.

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