Home > Research > Publications & Outputs > A secure and transparent communication mechanis...

Electronic data

  • Metavers_paper_in_Taylor_Francis1

    Accepted author manuscript, 1.17 MB, PDF document

    Available under license: CC BY: Creative Commons Attribution 4.0 International License

Links

Text available via DOI:

View graph of relations

A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0

Research output: Contribution to Journal/MagazineJournal articlepeer-review

E-pub ahead of print

Standard

A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0. / Kerrache, Chaker Abdelaziz; Rathee, Geetanjali; Lahby, Mohamed et al.
In: Information Security Journal: A Global Perspective, 18.05.2024.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Kerrache, CA, Rathee, G, Lahby, M, Vegni, AM, Bilal, M & Ferrag, MA 2024, 'A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0', Information Security Journal: A Global Perspective. https://doi.org/10.1080/19393555.2024.2353067

APA

Kerrache, C. A., Rathee, G., Lahby, M., Vegni, A. M., Bilal, M., & Ferrag, M. A. (2024). A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0. Information Security Journal: A Global Perspective. Advance online publication. https://doi.org/10.1080/19393555.2024.2353067

Vancouver

Kerrache CA, Rathee G, Lahby M, Vegni AM, Bilal M, Ferrag MA. A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0. Information Security Journal: A Global Perspective. 2024 May 18. Epub 2024 May 18. doi: 10.1080/19393555.2024.2353067

Author

Kerrache, Chaker Abdelaziz ; Rathee, Geetanjali ; Lahby, Mohamed et al. / A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0. In: Information Security Journal: A Global Perspective. 2024.

Bibtex

@article{e856d6e5e6b543f19a82c1a512829a62,
title = "A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0",
abstract = "Recently, Metaverse is gaining prominence within the field of radiology due to its potential to revolutionize image visualization. Radiologists can harness its capabilities to access dynamic, highly detailed results, thereby enhancing diagnostic precision. Digital twins, at the core of the Metaverse, are digital replicas of real-world objects and entities. They serve as the foundational building blocks, enabling the creation of virtual counterparts for everything within the Metaverse. To ensure the reliability of these digital twins, blockchain technology offers a multi-dimensional data storage solution, reinforcing data integrity and trustworthiness. It is used to ensure a transparent and 3D visualization of each communication and interaction for further looking up any criticality if present in the network. With the rapid increase in value and volume of data, the evolution of the metaverse faces a number of privacy and security concerns. Furthermore, the metaverse in Industry 4.0 is a trending topic that further needs to focus on its security challenges at its initial stage. Fortunately, blockchain is considered as one of the significant solutions. The aim of this paper is to propose a secure and efficient fuzzy evaluation matrix by computing the trust values along with integrating with blockchain mechanism in industry 4.0 enabling metaverse environment. The proposed mechanism is validated against various security concerns such as broken authentication, eavesdropping, personal information leakage, data injection, and unauthorized access. The proposed mechanism showed the validation rate against existing schemes with an improvement of 94% in comparison of several security metrics.",
author = "Kerrache, {Chaker Abdelaziz} and Geetanjali Rathee and Mohamed Lahby and Vegni, {Anna Maria} and Muhammad Bilal and Ferrag, {Mohamed Amine}",
year = "2024",
month = may,
day = "18",
doi = "10.1080/19393555.2024.2353067",
language = "English",
journal = "Information Security Journal: A Global Perspective",
issn = "1939-3555",
publisher = "Informa UK Limited",

}

RIS

TY - JOUR

T1 - A secure and transparent communication mechanism based on blockchain and fuzzy evaluation matrix in metaverse industry 4.0

AU - Kerrache, Chaker Abdelaziz

AU - Rathee, Geetanjali

AU - Lahby, Mohamed

AU - Vegni, Anna Maria

AU - Bilal, Muhammad

AU - Ferrag, Mohamed Amine

PY - 2024/5/18

Y1 - 2024/5/18

N2 - Recently, Metaverse is gaining prominence within the field of radiology due to its potential to revolutionize image visualization. Radiologists can harness its capabilities to access dynamic, highly detailed results, thereby enhancing diagnostic precision. Digital twins, at the core of the Metaverse, are digital replicas of real-world objects and entities. They serve as the foundational building blocks, enabling the creation of virtual counterparts for everything within the Metaverse. To ensure the reliability of these digital twins, blockchain technology offers a multi-dimensional data storage solution, reinforcing data integrity and trustworthiness. It is used to ensure a transparent and 3D visualization of each communication and interaction for further looking up any criticality if present in the network. With the rapid increase in value and volume of data, the evolution of the metaverse faces a number of privacy and security concerns. Furthermore, the metaverse in Industry 4.0 is a trending topic that further needs to focus on its security challenges at its initial stage. Fortunately, blockchain is considered as one of the significant solutions. The aim of this paper is to propose a secure and efficient fuzzy evaluation matrix by computing the trust values along with integrating with blockchain mechanism in industry 4.0 enabling metaverse environment. The proposed mechanism is validated against various security concerns such as broken authentication, eavesdropping, personal information leakage, data injection, and unauthorized access. The proposed mechanism showed the validation rate against existing schemes with an improvement of 94% in comparison of several security metrics.

AB - Recently, Metaverse is gaining prominence within the field of radiology due to its potential to revolutionize image visualization. Radiologists can harness its capabilities to access dynamic, highly detailed results, thereby enhancing diagnostic precision. Digital twins, at the core of the Metaverse, are digital replicas of real-world objects and entities. They serve as the foundational building blocks, enabling the creation of virtual counterparts for everything within the Metaverse. To ensure the reliability of these digital twins, blockchain technology offers a multi-dimensional data storage solution, reinforcing data integrity and trustworthiness. It is used to ensure a transparent and 3D visualization of each communication and interaction for further looking up any criticality if present in the network. With the rapid increase in value and volume of data, the evolution of the metaverse faces a number of privacy and security concerns. Furthermore, the metaverse in Industry 4.0 is a trending topic that further needs to focus on its security challenges at its initial stage. Fortunately, blockchain is considered as one of the significant solutions. The aim of this paper is to propose a secure and efficient fuzzy evaluation matrix by computing the trust values along with integrating with blockchain mechanism in industry 4.0 enabling metaverse environment. The proposed mechanism is validated against various security concerns such as broken authentication, eavesdropping, personal information leakage, data injection, and unauthorized access. The proposed mechanism showed the validation rate against existing schemes with an improvement of 94% in comparison of several security metrics.

U2 - 10.1080/19393555.2024.2353067

DO - 10.1080/19393555.2024.2353067

M3 - Journal article

JO - Information Security Journal: A Global Perspective

JF - Information Security Journal: A Global Perspective

SN - 1939-3555

ER -