Remigius O. Okeke scite author profile

Idigo

Akemi

et al. 2021

EJERS

With the rapid increasing bandwidth demand mainly driven by the development of advanced broadband multimedia application, such as video-on-demand (VoD), interactive high-definition digital television (HDTV) and video conference, new access network solutions that provide high capacity are highly needed to satisfy these emerging services. In a largely populated and technologically exposed institution such the University of Port Harcourt, this demand is truly great. The Passive Optical Network (PON), which utilizes the Fibre Optic Technology, is a suitable solution to this problem. Hence this is geared towards the design and simulation of a Passive Optical Network for the University’s campus district. This Campus based Local Area Network consists of the Various Faculty buildings, the Senate building which is the central administrative building, and was centralized at the Information and Communication Technology Center (ICTC), which served as the Central Office of the network. The Wavelength Division Multiplexing (WDM) technique was utilized because of its dedicated bandwidth for each subscriber and more flexible bandwidth management. The validation was carried out on a virtual computation environment called OptiSystem©.

Development and Implementation of Blockchain Solution to Enable Data Security at University of Port Harcourt

D.Enoch

Omijeh

2023

EJECE

Institutions globally, seek for a solution that intelligently manages the security of data without tampering or mutilations. To compete globally, It has become necessary for the educational sector in Nigeria to build a software solution to end the challenges of fake results, transcripts and certificates and the time it takes to verify their authenticity. This research aims to develop and implement a blockchain solution that would enforce the required security for the Centre for Information and Telecommunication Engineering, University of Port Harcourt (CITE, Uniport), Nigeria. In this study the various services that comprise the building of a decentralized blockchain network, the network consensus algorithm and block explorer application as a unit was put together using JavaScript and its associate libraries. The blockchain data structure was developed with the ability of proof of work, the mining of new blocks, the creation of transactions, the validation of the chain, retrieving the data and other functionalities when demanded. The decentralized blockchain network was developed and tested for ten API (application programming interface) servers and the result shows that the blocks and transactions created were broadcasted throughout the entire network. The results of the consensus algorithms proved that it was able to verify and ensure that the network nodes have valid data and are synchronized. The blockchain explorer application was implemented with a lot of features. It allow user to query the blockchain for specific blocks, results, transcript or certificate.

Design and Simulation of Microcontroller Based Wireless Patient Intelligent Health Monitoring System with GSM Alert Technology

Ezeofor¹,

Okeke²,

S.K³

2015

IJETT

Passive Optical Network: A Fibre to the ‘X’ Approach

Idigo

Akemi

et al. 2021

EJENG

Dispersion Compensation Algorithm for Single Mode Fiber

Nnamdi

2022

EJENG

Optical fibers enable the transmission of data through a long distance at very high speed and very low latency. However, this can be limited as a result of dispersion. This paper presents a dynamic MATLAB script that can mitigate against the dispersion in a single mode fiber (SMF)by calculating the length of dispersion compensation fiber (DCF) needed to offset the dispersion. It also calculates the number of amplifiers needed and the positions the amplifiers are to be placed. The results from the MATLAB script were also authenticated using Opti system. The average Bit error rate (BER) values gotten with simulation parameters of different scenarios shown in tables 1 and 2 are 7.6857e-17 and 5.8036e-10 respectively. The average Quality factor (Q-Factor) values of 10.046203 and 7.286533 were also gotten respectively. This showed that the effect of dispersion was compensated using the DCF thus proving the validity of the script.