Modified PRESENT Encryption algorithm based on new 5D Chaotic system

Author:

Jawad Kubba Zaid M.,Hoomod Haider K.

Abstract

Abstract Cryptography is a major concern in communication systems. IoE technology is a new trend of smart systems based on various constrained devices. Lightweight cryptographic algorithms are mainly solved the most security concern of constrained devices and IoE systems. On the other hand, most lightweight algorithms are suffering from the trade-off between complexity and performance. Moreover, the strength of the cryptosystems, including the speed of the algorithm and the complexity of the system against the cryptanalysis. A chaotic system is based on nonlinear dynamic equations that are sensitive to initial conditions and produce high randomness which is a good choice for cryptosystems. In this work, we proposed a new five-dimensional of a chaotic system for a lightweight cryptographic algorithm. The proposed new chaotic system considers as super chaos. The NIST suite of all 15th tests is examined the proposed algorithm and showed high randomness and complexity.

Publisher

IOP Publishing

Subject

General Medicine

Reference9 articles.

1. The Internet of Everything Based Smart Systems: Applications and Challenges;Kubba,2019

2. An efficient implementation of present cipher model with 80 bit and 128 bit key over fpga based hardware architecture;Azari;International Journal of Pure and Applied Mathematics,2018

3. A Hybrid Modified Lightweight Algorithm Combined of Two Cryptography Algorithms PRESENT and Salsa20 Using Chaotic System;Kubba,2019

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1. Hybrid Efficient Stream Cipher KeyGenerator Based on LFSR's and Chaotic Map;Ibn AL-Haitham Journal For Pure and Applied Sciences;2024-01-20

2. Hybrid Encryption Algorithm: AES and PRESENT Lightweight with a Chaotic System (PHEPA-AES);Lecture Notes in Networks and Systems;2024

3. A New Approach to Design KM1 Encryption Algorithm for Alarm in IoT;Communications in Computer and Information Science;2024

4. A Light-Weight Stream Ciphering Model Based on Chebyshev Chaotic Maps and One Dimensional Logistic;Communications in Computer and Information Science;2021

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