TY - JOUR
T1 - A Secure and Privacy-Preserving E-Government Framework Using Blockchain and Artificial Immunity
AU - Elisa, Noe
AU - Yang, Longzhi
AU - Chao, Fei
AU - Naik, Nitin Kumar
AU - Boongoen, Tossapon
N1 - Funding Information:
This work was supported in part by the Commonwealth Scholarship Commission under Grant CSC-TZCS-2017-717, and in part by the Royal Academy of Engineering Industry Academia Partnership Programme under Grant IAPP1\100077.
Publisher Copyright:
© 2013 IEEE.
PY - 2023/1/30
Y1 - 2023/1/30
N2 - Electronic Government (e-Government) systems constantly provide greater services to people, businesses, organisations, and societies by offering more information, opportunities, and platforms with the support of advances in information and communications technologies. This usually results in increased system complexity and sensitivity, necessitating stricter security and privacy-protection measures. The majority of the existing e-Government systems are centralised, making them vulnerable to privacy and security threats, in addition to suffering from a single point of failure. This study proposes a decentralised e-Government framework with integrated threat detection features to address the aforementioned challenges. In particular, the privacy and security of the proposed e-Government system are realised by the encryption, validation, and immutable mechanisms provided by Blockchain. The insider and external threats associated with blockchain transactions are minimised by the employment of an artificial immune system, which effectively protects the integrity of the Blockchain. The proposed e-Government system was validated and evaluated by using the framework of Ethereum Visualisations of Interactive, Blockchain, Extended Simulations (i.e. eVIBES simulator) with two publicly available datasets. The experimental results show the efficacy of the proposed framework in that it can mitigate insider and external threats in e-Government systems whilst simultaneously preserving the privacy of information.
AB - Electronic Government (e-Government) systems constantly provide greater services to people, businesses, organisations, and societies by offering more information, opportunities, and platforms with the support of advances in information and communications technologies. This usually results in increased system complexity and sensitivity, necessitating stricter security and privacy-protection measures. The majority of the existing e-Government systems are centralised, making them vulnerable to privacy and security threats, in addition to suffering from a single point of failure. This study proposes a decentralised e-Government framework with integrated threat detection features to address the aforementioned challenges. In particular, the privacy and security of the proposed e-Government system are realised by the encryption, validation, and immutable mechanisms provided by Blockchain. The insider and external threats associated with blockchain transactions are minimised by the employment of an artificial immune system, which effectively protects the integrity of the Blockchain. The proposed e-Government system was validated and evaluated by using the framework of Ethereum Visualisations of Interactive, Blockchain, Extended Simulations (i.e. eVIBES simulator) with two publicly available datasets. The experimental results show the efficacy of the proposed framework in that it can mitigate insider and external threats in e-Government systems whilst simultaneously preserving the privacy of information.
KW - E-Government
KW - artificial immune system
KW - blockchain
KW - insider threat
KW - privacy-preserving
UR - http://www.scopus.com/inward/record.url?scp=85147293522&partnerID=8YFLogxK
U2 - 10.1109/ACCESS.2023.3239814
DO - 10.1109/ACCESS.2023.3239814
M3 - Article
SN - 2169-3536
VL - 11
SP - 8773
EP - 8789
JO - IEEE Access
JF - IEEE Access
ER -