Taliha A. Folorunso

Work place: Federal University of Technology/Computer Engineering Department, Minna, P.M.B 65, Nigeria

E-mail: funso.taliha@futminna.edu.ng

Website:

Research Interests: Computer systems and computational processes, Embedded System, Operating Systems, Process Control System, Data Structures and Algorithms

Biography

Folorunso Taliha is an Assistant Lecturer in the Department of Mechatronics Engineering Federal University of Technology Minna. He completed in Bachelor Degree of Engineering in Electrical/Electronics Engineering at the Prestigious Ladoke Akintola University of Technology Ogbomoso Nigeria and proceeded to the famous Universiti Teknologi Malaysia for his Master‘s Degree in Mechatronics and Automatic Control Engineering. He has published in reputable journals and learned conferences. His areas of research includes: Control system, systems identification and estimation, Embedded Systems and Precision Agriculture. He can be contacted at funso.taliha@futminna.edu.ng

Author Articles
Design of Secure Electronic Voting System Using Fingerprint Biometrics and Crypto-Watermarking Approach

By Olayemi M. Olaniyi Taliha A. Folorunso Aliyu Ahmed Olugbenga Joseph

DOI: https://doi.org/10.5815/ijieeb.2016.05.02, Pub. Date: 8 Sep. 2016

The conventional voting scheme employs paper-based ballot to verify votes. This voting scheme is insecure due to the attributed shortcomings including ballot stuffing, ballot snatching and voter’s impersonation. In this paper, we present the design and development of secure e-voting to ensure a free, fair and credible election where the preference of electorate counts. This proposed system solves the authentication, integrity and confidentiality security issues of e-voting in kiosk and poll site evoting scenarios using unimodal fingerprint biometrics and Advanced Encryption Standard based Wavelet based Crypto-watermarking Approach. The developed system solves: The possibility of blundering voter’s authentication, integrity and confidentiality of vote stored in the server. The results after qualitative evaluation of the system with anti-watermarking detectors revealed that the developed secure e-voting system could serve as a platform for the delivery of credible e-election in developing countries with significant digital divides.

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