Moses O. Onyesolu

Work place: Department of Computer Science, Nnamdi Azikiwe University, Awka, Nigeria

E-mail: mo.onyesolu@unizik.edu.ng

Website:

Research Interests: Computer systems and computational processes, Computational Learning Theory, Solid Modeling, Virtual Reality, Data Structures and Algorithms

Biography

Moses O. Onyesolu: Has Ph.D. (Virtual Reality), M.Sc. B.Sc. (Computer Science) from Nnamdi Azikiwe University, Nigeria where he works as a lecturer and researcher. His research interests are mainly in computer modeling and simulation, elearning/virtual reality technologies, queuing system/theory and its applications. He has published widely in those areas. He is a member of the following learned societies: Nigerian Computer Society (NCS), Computer Professionals (Registration Council of Nigeria) (CPN), and International Association of Engineers (IAENG), International Association of Computer Science and Information Technology (IACSIT) and European Association for Programming Languages and Systems (EAPLS).

Author Articles
Improving Security Using a Three-Tier Authentication for Automated Teller Machine (ATM)

By Moses O. Onyesolu Amara C. Okpala

DOI: https://doi.org/10.5815/ijcnis.2017.10.06, Pub. Date: 8 Oct. 2017

The current use of Personal Identification Number (PIN) for verification of the validity of a customer’s identity on Automated Teller Machine (ATM) systems is susceptible to unauthorized access and illegal withdrawal of cash from the ATM, hence, the need for more reliable means of carrying out user authentication. We present a three-tier authentication model with three layers of authentication using password, fingerprint and One-Time-Password (OTP). The identity of an ATM user is validated using password, fingerprint and OTP. Object-Oriented Analysis and Design Methodology (OOADM) was employed in the investigation of the existing system and analysis of the proposed system. Microsoft Visual Basic.NET and Microsoft SQL Server were employed in the implementation of the system. The result is a three-tier authentication model for ATM. Alphabetic keys and some special character keys were introduced to the existing numeric keypad for authentication. The ATM was interfaced with a fingerprint reader for improved security.

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Towards Modeling Malicious Agents in Decentralized Wireless Sensor Networks: A Case of Vertical Worm Transmissions and Containment

By ChukwuNonso H. Nwokoye Virginia E. Ejiofor Moses O. Onyesolu Boniface Ekechukwu

DOI: https://doi.org/10.5815/ijcnis.2017.09.02, Pub. Date: 8 Sep. 2017

Now, it is unarguable that cyber threats arising from malicious codes such as worms possesses the ability to cause losses, damages and disruptions to industries that utilize ICT infrastructure for meaningful daily work. More so for wireless sensor networks (WSN) which thrive on open air communications. As a result epidemic models are used to study propagation patterns of these malicious codes, although they favor horizontal transmissions. Specifically, the literature dealing with the analysis of worms that are both vertically and horizontally (transmitted) is not extensive. Therefore, we propose the Vulnerable–Latent–Breaking Out–Temporarily Immune–Inoculation (VLBTV-I) epidemic model to investigate both horizontal and vertical worm transmission in wireless sensor networks. We derived the solutions of the equilibriums as well as the epidemic threshold for two topological expressions (gleaned from literature). Furthermore, we employed the Runge-Kutta-Fehlberg order 4 and 5 method to solve, simulate and validate our proposed models. Critically, we analyzed the impact of both vertical and horizontal transmissions on the latent and breaking out compartments using several simulations experiments.

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Optimality Test for Multi-Sever Queuing Model with Homogenous Server in the Out-Patient Department (OPD) of Nigeria Teaching Hospitals

By Tochukwu A. Ikwunne Moses O. Onyesolu

DOI: https://doi.org/10.5815/ijmecs.2016.04.02, Pub. Date: 8 Apr. 2016

Queuing by patients in the out-patients department to access hospital services in Nigeria teaching hospitals is a teething concern to most healthcare providers. This causes inconvenience to patients and economic costs to the hospitals. Patients waiting for minutes, hours, days or months to receive medical services could result in waiting costs to them. Providing too much service could result in excessive costs. Also not providing adequate services could result in excessive waiting and costs. This study sought to determine an optimal server level and at a minimum total cost which include waiting and service costs in homogenous servers in order to reduce patients’ congestions in the hospital as low as reasonably practicable. The queuing characteristics in all the twenty-three (23) teaching hospitals in Nigeria were analysed using a Multi-server Queuing Model and the waiting and service costs determined with a view to ascertaining the optimal service level. The data for this study were collected through observations and interviews. The data was analysed using Quantitative Methods, Production and Operations Management (POM QM) and Queuing Theory Calculator Software as well as using descriptive analysis. The results of the analysis demonstrated that average queue length, waiting time of patients as well as over utilization of specialist doctors at the teaching hospitals could be reduced at an optimal server level and at a minimum total cost as against their present server level with high total cost which include waiting and service costs. Therefore, this call for refocusing so as to improve the overall patient care in our cultural context and meet the patient needs in our environment.

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