A new and adaptive security model for public communication based on correlation of data frames

Recent developments in communication and information technologies, plus the emerging of the Internet of Things (IoT) and machine to machine (M2M) principles, create the need to protect data from multiple types of attacks. In this paper, a secure and high capacity data communication model is proposed...

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Main Authors: Haider, H.T., Muhsen, D.H., Shahadi, H.I., See, O.H.
Format: Article
Language:English
Published: 2020
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Institution: Universiti Tenaga Nasional
Language: English
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spelling my.uniten.dspace-133292020-07-03T04:41:28Z A new and adaptive security model for public communication based on correlation of data frames Haider, H.T. Muhsen, D.H. Shahadi, H.I. See, O.H. Recent developments in communication and information technologies, plus the emerging of the Internet of Things (IoT) and machine to machine (M2M) principles, create the need to protect data from multiple types of attacks. In this paper, a secure and high capacity data communication model is proposed to protect the transmitted data based on identical frames between a secret and cover data. In this model, the cover data does not convey any embedded data (as in normal steganography system) or modify the secret message (as in traditional cryptography techniques). Alternatively, the proposed model sends the positions of the cover frames that are identical with the secret frames to the receiver side in order to recover the secret message. One of the significant advantages of the proposed model is the size of the secret key message which is considerably larger than the cover size, it may be even hundred times larger. Accordingly, the experimental results demonstrate a superior performance in terms of the capacity rate as compared to the traditional steganography techniques. Moreover, it has an advantage in terms of the required bandwidth to send the data or the required memory for saving when compared to the steganography methods, which need a bandwidth or memory up to 3-5 times of the original secret message. Where the length of the secret key (positions of the identical frames) that should be sent to the receiver increases by only 25% from the original secret message. This model is suitable for applications with a high level of security, high capacity rate and less bandwidth of communication or low storage devices. © Czech Technical University in Prague, 2019. 2020-02-03T03:31:52Z 2020-02-03T03:31:52Z 2019 Article 10.14311/AP.2019.59.0126 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
description Recent developments in communication and information technologies, plus the emerging of the Internet of Things (IoT) and machine to machine (M2M) principles, create the need to protect data from multiple types of attacks. In this paper, a secure and high capacity data communication model is proposed to protect the transmitted data based on identical frames between a secret and cover data. In this model, the cover data does not convey any embedded data (as in normal steganography system) or modify the secret message (as in traditional cryptography techniques). Alternatively, the proposed model sends the positions of the cover frames that are identical with the secret frames to the receiver side in order to recover the secret message. One of the significant advantages of the proposed model is the size of the secret key message which is considerably larger than the cover size, it may be even hundred times larger. Accordingly, the experimental results demonstrate a superior performance in terms of the capacity rate as compared to the traditional steganography techniques. Moreover, it has an advantage in terms of the required bandwidth to send the data or the required memory for saving when compared to the steganography methods, which need a bandwidth or memory up to 3-5 times of the original secret message. Where the length of the secret key (positions of the identical frames) that should be sent to the receiver increases by only 25% from the original secret message. This model is suitable for applications with a high level of security, high capacity rate and less bandwidth of communication or low storage devices. © Czech Technical University in Prague, 2019.
format Article
author Haider, H.T.
Muhsen, D.H.
Shahadi, H.I.
See, O.H.
spellingShingle Haider, H.T.
Muhsen, D.H.
Shahadi, H.I.
See, O.H.
A new and adaptive security model for public communication based on correlation of data frames
author_facet Haider, H.T.
Muhsen, D.H.
Shahadi, H.I.
See, O.H.
author_sort Haider, H.T.
title A new and adaptive security model for public communication based on correlation of data frames
title_short A new and adaptive security model for public communication based on correlation of data frames
title_full A new and adaptive security model for public communication based on correlation of data frames
title_fullStr A new and adaptive security model for public communication based on correlation of data frames
title_full_unstemmed A new and adaptive security model for public communication based on correlation of data frames
title_sort new and adaptive security model for public communication based on correlation of data frames
publishDate 2020
_version_ 1672614222972846080