A Blockchain Based Scalable Domain Access Control Framework for Industrial Internet of Things

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Usman, MuhammadDepartment of Computer Science, National University of Computer and Emerging Sciences, Chiniot-Faisalabad Campus, Chiniot, Islamabad, Pakistan (author)

A Blockchain Based Scalable Domain Access Control Framework for Industrial Internet of Things

Article/chapterEnglish2024

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IEEE,2024
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LIBRIS-ID:oai:DiVA.org:ltu-105226
https://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-105226URI
https://doi.org/10.1109/access.2024.3390842DOI

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Language:English
Summary in:English

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Validerad;2024;Nivå 2;2024-06-28 (hanlid);Full text license: CC BY
Industrial Internet of Things (IIoT) applications consist of resource constrained interconnected devices that make them vulnerable to data leak and integrity violation challenges. The mobility, dynamism, and complex structure of the network further make this issue more challenging. To control the information flow in such environments, access control is critical to make collaboration and communication safe. To deal with these challenges, recent studies employ attribute-based access control on top of blockchain technology. However, the attribute-based access control frameworks suffer due to high computational overhead. In this paper, we propose an improved role-based access control framework using hyperledger blockchain to deal with IIoT requirements with less computational overhead making the information control process more efficient and real-time. The proposed framework leverages a layered architecture of chaincodes to implement the improved access control framework that handles the permission delegation and conflict management to deal with the dynamism of the IIoT network. The system uses a Policy Contract, Device Contract, and Access Contract to manage the workflow of the whole access control process. Each chaincode in the proposed framework is isolated in terms of its responsibilities to make the design low coupled. The integration of improved access control with blockchain enables the proposed framework to provide a highly scalable solution, tamper-proof, and flexible to manage conflicting scenarios. The proposed system outperforms the recent studies significantly in computational overhead in extensive simulation results. To verify the scalability and efficiency, the proposed is evaluated against a large number of concurrent virtual clients in simulation and statistical analysis proves that the proposed system is promising for further research in this domain.

Subject headings and genre

NATURVETENSKAP Data- och informationsvetenskap Datavetenskap hsv//swe
NATURAL SCIENCES Computer and Information Sciences Computer Sciences hsv//eng
TEKNIK OCH TEKNOLOGIER Elektroteknik och elektronik Datorsystem hsv//swe
ENGINEERING AND TECHNOLOGY Electrical Engineering, Electronic Engineering, Information Engineering Computer Systems hsv//eng
Blockchain
smart contract
IIoT
access control
conflict management
policy contract
access contract
device contract
hyperledger fabric
Maskininlärning
Machine Learning

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Sarfraz, Muhammad ShahzadDepartment of Computer Science, National University of Computer and Emerging Sciences, Chiniot-Faisalabad Campus, Chiniot, Islamabad, Pakistan (author)
Aftab, Muhammad UmarDepartment of Computer Science, National University of Computer and Emerging Sciences, Chiniot-Faisalabad Campus, Chiniot, Islamabad, Pakistan (author)
Habib, UsmanSoftware Engineering Department, FAST School of Computing, National University of Computer & Emerging Sciences, Islamabad, Pakistan (author)
Javed, Saleha,1990-Luleå tekniska universitet,EISLAB(Swepub:ltu)saljav (author)
Department of Computer Science, National University of Computer and Emerging Sciences, Chiniot-Faisalabad Campus, Chiniot, Islamabad, PakistanSoftware Engineering Department, FAST School of Computing, National University of Computer & Emerging Sciences, Islamabad, Pakistan (creator_code:org_t)

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In:IEEE Access: IEEE12, s. 56554-565702169-3536

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