Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael

In recent years and specifically in the era of rapid technology development, many changes have taken place in the field of communication technologies (ICT), where mobile devices have replaced computers in multiple significant tasks. This has influenced the interactions between citizens and governmen...

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Main Authors: Tawfeeq M.A., Sultan M.T.
Other Authors: 57202216366
Format: Article
Published: Little Lion Scientific 2023
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spelling my.uniten.dspace-238242023-05-29T14:52:10Z Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael Tawfeeq M.A. Sultan M.T. 57202216366 57201635420 In recent years and specifically in the era of rapid technology development, many changes have taken place in the field of communication technologies (ICT), where mobile devices have replaced computers in multiple significant tasks. This has influenced the interactions between citizens and government agencies in what is called the m-Government, which is an extension of the e-Government that provides services to citizens in general or subscribers in particular. As these services range from public to private bodies and data transmitted sometimes require authentication and confidentiality, the need to secure them has been found to be inevitable. The problem faced here is regarding security of transmitted data as cryptography algorithms whether symmetric or asymmetric; suffer from issues of key exchange mechanism or security performance. In this research, the authors proposes a system technique to secure the transmission of the m-Government using hybrid security algorithms of AES-Rijndael and NTRU, with concentration on confidentiality and authentication as core services in m-Government current transactions, in order to enhance the security of transmission medium and achieve better security of m-Government services. The findings of this dissertation have shown proof of the powerful presence of security factors concerning confidentiality and authentication in the field of m-Government, and test performance approves that the proposed technique is applicable on smartphone devices. � 2005 � ongoing JATIT & LLS. Final 2023-05-29T06:52:10Z 2023-05-29T06:52:10Z 2018 Article 2-s2.0-85047449909 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85047449909&partnerID=40&md5=ecb22a7983cc91b473b56f317da806dd https://irepository.uniten.edu.my/handle/123456789/23824 96 9 2578 2593 Little Lion Scientific Scopus
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/
description In recent years and specifically in the era of rapid technology development, many changes have taken place in the field of communication technologies (ICT), where mobile devices have replaced computers in multiple significant tasks. This has influenced the interactions between citizens and government agencies in what is called the m-Government, which is an extension of the e-Government that provides services to citizens in general or subscribers in particular. As these services range from public to private bodies and data transmitted sometimes require authentication and confidentiality, the need to secure them has been found to be inevitable. The problem faced here is regarding security of transmitted data as cryptography algorithms whether symmetric or asymmetric; suffer from issues of key exchange mechanism or security performance. In this research, the authors proposes a system technique to secure the transmission of the m-Government using hybrid security algorithms of AES-Rijndael and NTRU, with concentration on confidentiality and authentication as core services in m-Government current transactions, in order to enhance the security of transmission medium and achieve better security of m-Government services. The findings of this dissertation have shown proof of the powerful presence of security factors concerning confidentiality and authentication in the field of m-Government, and test performance approves that the proposed technique is applicable on smartphone devices. � 2005 � ongoing JATIT & LLS.
author2 57202216366
author_facet 57202216366
Tawfeeq M.A.
Sultan M.T.
format Article
author Tawfeeq M.A.
Sultan M.T.
spellingShingle Tawfeeq M.A.
Sultan M.T.
Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael
author_sort Tawfeeq M.A.
title Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael
title_short Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael
title_full Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael
title_fullStr Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael
title_full_unstemmed Design and implementation of security solution for M-government on mobile platforms using hybrid of NTRU-PKI and aes-rijndael
title_sort design and implementation of security solution for m-government on mobile platforms using hybrid of ntru-pki and aes-rijndael
publisher Little Lion Scientific
publishDate 2023
_version_ 1806423322625310720
score 13.222552