Jensen-based New Cryptographic Scheme
Keywords:
Jensen Polynomials, Laplace Transform, Cryptographic algorithm, Information security, Cryptographic SchemeAbstract
The surgent availability of data and the demand for more data to implement several technological products which heavily depends on data have made the issue of cyber attacks, a global threat, of great concern. To ensure the protection of information, the heart of every nation, the development of formidable techniques which contribute to the advancement of present schemes is crucial to combat the challenge. In this research work, a mathematical framework, from the idea of cryptography, is developed using Jensen polynomial. Jensen polynomial is used for the encryption algorithm, and the Laplace transform is used as a transformation tool to convert the plain text message to cipher text message. The decryption is a reversal which involves the use of structured mathematical techniques and the key for the message.
Published
How to Cite
Issue
Section
Copyright (c) 2022 Journal of the Nigerian Society of Physical Sciences
This work is licensed under a Creative Commons Attribution 4.0 International License.
How to Cite
Similar Articles
- xiaojie zhou, Majid Khan Majahar Ali, Farah Aini Abdullah, Lili Wu, Ying Tian, Tao Li, Kaihui Li, Implementing a dung beetle optimization algorithm enhanced with multi-strategy fusion techniques , Journal of the Nigerian Society of Physical Sciences: Volume 7, Issue 2, May 2025
- B. I. Akinnukawe, S. A. Okunuga, One-step block scheme with optimal hybrid points for numerical integration of second-order ordinary differential equations , Journal of the Nigerian Society of Physical Sciences: Volume 6, Issue 2, May 2024
- Sunday Emmanuel Fadugba, Solution of Fractional Order Equations in the Domain of the Mellin Transform , Journal of the Nigerian Society of Physical Sciences: Volume 1, Issue 4, November 2019
- Silifat Adaramaja Abdulraheem, Salisu Aliyu, Fatima Binta Abdullahi, Hyper-parameter tuning for support vector machine using an improved cat swarm optimization algorithm , Journal of the Nigerian Society of Physical Sciences: Volume 5, Issue 4, November 2023
- Christopher Ifeanyi Eke, Kholoud Maswadi, Musa Phiri, Mulenga Mwege, Mohammad Imran, Dekera Kenneth Kwaghtyo, Akeremale Olusola Collins, Effective tweets classification for disaster crisis based on ensemble of classifiers , Journal of the Nigerian Society of Physical Sciences: Volume 7, Issue 3, August 2025
- Joshua Sunday, Joel N. Ndam, Lydia J. Kwari, An Accuracy-preserving Block Hybrid Algorithm for the Integration of Second-order Physical Systems with Oscillatory Solutions , Journal of the Nigerian Society of Physical Sciences: Volume 5, Issue 1, February 2023
- Kenneth Christopher Ugwoke, Nnanna Nwojo Agwu, Saleh Abdullahi, Artificial potential field path length reduction using Kenneth-Nnanna-Saleh algorithm , Journal of the Nigerian Society of Physical Sciences: Volume 7, Issue 3, August 2025
- E. I. Akinola, R. A. Oderinu, S. Alao, O. E. Opaleye, An Integral Transform-Weighted Residual Method for Solving Second Order Linear Boundary Value Differential Equations with Semi-Infinite Domain , Journal of the Nigerian Society of Physical Sciences: Volume 4, Issue 4, November 2022
- Monika Saini, Naveen Kumar, Deepak Sinwar, Ashish Kumar, Availability optimization of bolts manufacturing plant using particle swarm optimization and genetic algorithm , Journal of the Nigerian Society of Physical Sciences: Volume 6, Issue 4, November 2024
- Timothy Kayode Samson, Francis Olatunbosun Aweda, Wind speed prediction in some major cities in Africa using Linear Regression and Random Forest algorithms , Journal of the Nigerian Society of Physical Sciences: Volume 6, Issue 4, November 2024
You may also start an advanced similarity search for this article.
