Saved in:
Bibliographic Details
Main Author: Kareem, Shadman R.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.14092
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909322007543808
author Kareem, Shadman R.
author_facet Kareem, Shadman R.
contents The preservation of image privacy during storage and transmission is of paramount importance in several areas including healthcare, military, safe communication, and video conferencing. Protecting data privacy demands the use of robust image encryption techniques. Several cryptographic techniques have been particularly designed to ensure the privacy of digital images. This study presents a novel method for encrypting color images utilizing chaos theory and a special transformation. This indicated approach first employs the Lorenz chaos theory to scramble the audio files. Following that, we utilize a technique that involves using the Maclaurin series expansion of hyperbolic functions and the Elzaki transform to encrypt the audio. Subsequently, we decode it by applying the inverse Elzaki transform. The key for the coefficients obtained from the transformation is created using modular arithmetic methods. Comparisons between the techniques are conducted based on a number of performance measures, including entropy analysis, spectrogram plotting, and correlation coefficients. Theoretical analysis and simulation indicate the efficacy of the proposed approach and confirm that this method is suitable for actual audio encryption. Moreover, the security inquiry indicates that an extra layer of security is provided by the provided audio encryption approach
format Preprint
id arxiv_https___arxiv_org_abs_2409_14092
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Encryption of Audio Signals Using the Elzaki Transformation and the Lorenz Chaotic System Lorenz Chaotic System
Kareem, Shadman R.
Cryptography and Security
The preservation of image privacy during storage and transmission is of paramount importance in several areas including healthcare, military, safe communication, and video conferencing. Protecting data privacy demands the use of robust image encryption techniques. Several cryptographic techniques have been particularly designed to ensure the privacy of digital images. This study presents a novel method for encrypting color images utilizing chaos theory and a special transformation. This indicated approach first employs the Lorenz chaos theory to scramble the audio files. Following that, we utilize a technique that involves using the Maclaurin series expansion of hyperbolic functions and the Elzaki transform to encrypt the audio. Subsequently, we decode it by applying the inverse Elzaki transform. The key for the coefficients obtained from the transformation is created using modular arithmetic methods. Comparisons between the techniques are conducted based on a number of performance measures, including entropy analysis, spectrogram plotting, and correlation coefficients. Theoretical analysis and simulation indicate the efficacy of the proposed approach and confirm that this method is suitable for actual audio encryption. Moreover, the security inquiry indicates that an extra layer of security is provided by the provided audio encryption approach
title Encryption of Audio Signals Using the Elzaki Transformation and the Lorenz Chaotic System Lorenz Chaotic System
topic Cryptography and Security
url https://arxiv.org/abs/2409.14092