Work place: Air Force Institute of Technology, Kaduna. Nigeria

E-mail: contactseun@gmail.com


Research Interests: Computational Learning Theory


Oluseun Oyeleke is a Master degree holder in Electronics and communication Engineering and a current PhD Student in Telecommunication. He‟s focus is on wireless communication, Massive MIMO, MIMO and Machine learning for wireless telecommunication. He is currently an academic staff with the Air force Institute of Technology, Kaduna Nigeria

Author Articles
Absorption, Diffraction and Free Space Path Losses Modeling for the Terahertz Band

By Oluseun.D.Oyeleke Sadiq Thomas Olabode Idowu-Bismark Petrus Nzerem Idris Muhammad

DOI: https://doi.org/10.5815/ijem.2020.01.05, Pub. Date: 8 Feb. 2020

With the explosive increase in the data traffic of wireless communication systems and the scarcity of spectrum, terahertz (THz) frequency band is predicted as a hopeful contender to shore up ultra- broadband for the forthcoming beyond fifth generation (5G) communication system. THz frequency band is a bridge between millimeter wave (mmWave) and optical frequency bands. The contribution of this paper is to carry out an in-depth study of the THz channel impairments using mathematical models to evaluate the requirements for designing indoor THz communication systems at 300GHz. Atmospheric absorption loss, diffraction loss and free space path loss were investigated and modeled. Finally, we discuss several potential application scenarios of THz and the essential technical challenges that will be encountered in the future THz communications. Finally, the article finds that propagating in the THz spectrum is strongly dependent on antenna gain.

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Design and Construction of an Obstacle-Detecting Glasses for the Visually Impaired

By Adegoke A. O Oluseun.D.Oyeleke Mahmud B Ajoje J. O Sadiq Thomas

DOI: https://doi.org/10.5815/ijem.2019.04.05, Pub. Date: 8 Jul. 2019

This paper introduces a wearable eyeglass with an ultrasonic sensor to help the blind to navigate alone safely, while avoiding obstacles that may be encountered, fixed or mobile, thereby preventing any possible accident. The main component of this work is the ultrasonic sensor, which is used to measure the distance to an object using sound waves. By recording the elapsed time between the wave being generated and the wave bouncing back, it is possible to calculate the distance between the sensor and the object. A limitation of the project is that even though it can operate alone as an independent device, its full functionality to be achieved, it needs to be part of a whole system hence making it an auxiliary device. An integration of this device with a smart walking stick or an automatic wheelchair can help realize its full potential and make it the ultimate mobility aid.
This system is cheap, fast and easy to use and it is an innovation for the blind and visually impaired people to help them overcome the various problems in their daily life.

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Design and Construction of a Prototype Wireless Power Transfer Device

By Oluseun.D.Oyeleke Sadiq Thomas Petrus Nzerem GokhanKoyunlu

DOI: https://doi.org/10.5815/ijem.2019.02.02, Pub. Date: 8 Mar. 2019

This project is aimed at developing a prototype wireless charging system that allows for charging convenience using wireless charging also called inductive charging. This allows charging to be made easier and free from connecting leads between charger and handset.
In order to successfully achieve this task, the design of the prototype was developed in two parts, a transmitter with resonator and a receiver with resonator. The transmitter converts DC voltage to AC, and transfers energy wirelessly through an LC resonator to the receiver through mutual induction, and hence induces EMF in the receiver. The EMF is rectified, filtered and regulated and output is used to charge mobile phones.
Testing results and measurements taken on this prototype shows that significant amount of EMF can be induced at receiver through air coupled transformers due to EM waves at high frequencies. The charging distance is 3cm maximum with end-to-end coupling.

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