Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing
The driving experience in fifth-generation (5G)-assisted vehicular fog computing systems has improved thanks to recent advancements in intelligent transportation. However, in the present vehicular system setup, the phenomenon of providing low computation overhead with massive serving capability is c...
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2024
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my.um.eprints.458822024-11-13T08:42:12Z http://eprints.um.edu.my/45882/ Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing Mohammed, Badiea Abdulkarem Al-Shareeda, Mahmood A. Alsadhan, Abeer Abdullah Al-Mekhlafi, Zeyad Ghaleb Sallam, Amer A. Al-Qatab, Bassam Ali Alshammari, Mohammad T. Alayba, Abdulaziz M. QA75 Electronic computers. Computer science The driving experience in fifth-generation (5G)-assisted vehicular fog computing systems has improved thanks to recent advancements in intelligent transportation. However, in the present vehicular system setup, the phenomenon of providing low computation overhead with massive serving capability is crucial. In the existing scenario, the computational complexity rises when an authenticated driver travels from one roadside unit (RSU) area to another RSU region and must undergo re-authentication by the existing RSU. In this paper, an efficient blockchain-based pseudonym authentication scheme to address these issues and avoiding using RSU for 5G-assisted vehicular fog computing. The pseudonym identity generated for each vehicles and fog servers in order to exchange information about the road environment. The proposed scheme avoids re-authentication by the future fog server by utilising bilinear pairing of points on the elliptic curve and utilising blockchain technology without the need for a trusted authority. For fog computing, fog server obtains the verification key to authenticate the messages sent from vehicles for supporting revocation. The security analysis part of this work shows that the proposed scheme is not only satisfy requirements of security and privacy, but also resistance security attacks. Finally, the evaluation of the proposed scheme's performance shows that it is more efficient than existing schemes with regards to computation cost, verification speed, and energy consumption. Institute of Electrical and Electronics Engineers 2024 Article PeerReviewed Mohammed, Badiea Abdulkarem and Al-Shareeda, Mahmood A. and Alsadhan, Abeer Abdullah and Al-Mekhlafi, Zeyad Ghaleb and Sallam, Amer A. and Al-Qatab, Bassam Ali and Alshammari, Mohammad T. and Alayba, Abdulaziz M. (2024) Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing. IEEE Access, 12. pp. 33089-33099. ISSN 2169-3536, DOI https://doi.org/10.1109/ACCESS.2024.3372390 <https://doi.org/10.1109/ACCESS.2024.3372390>. https://doi.org/10.1109/ACCESS.2024.3372390 10.1109/ACCESS.2024.3372390 |
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QA75 Electronic computers. Computer science Mohammed, Badiea Abdulkarem Al-Shareeda, Mahmood A. Alsadhan, Abeer Abdullah Al-Mekhlafi, Zeyad Ghaleb Sallam, Amer A. Al-Qatab, Bassam Ali Alshammari, Mohammad T. Alayba, Abdulaziz M. Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing |
| description |
The driving experience in fifth-generation (5G)-assisted vehicular fog computing systems has improved thanks to recent advancements in intelligent transportation. However, in the present vehicular system setup, the phenomenon of providing low computation overhead with massive serving capability is crucial. In the existing scenario, the computational complexity rises when an authenticated driver travels from one roadside unit (RSU) area to another RSU region and must undergo re-authentication by the existing RSU. In this paper, an efficient blockchain-based pseudonym authentication scheme to address these issues and avoiding using RSU for 5G-assisted vehicular fog computing. The pseudonym identity generated for each vehicles and fog servers in order to exchange information about the road environment. The proposed scheme avoids re-authentication by the future fog server by utilising bilinear pairing of points on the elliptic curve and utilising blockchain technology without the need for a trusted authority. For fog computing, fog server obtains the verification key to authenticate the messages sent from vehicles for supporting revocation. The security analysis part of this work shows that the proposed scheme is not only satisfy requirements of security and privacy, but also resistance security attacks. Finally, the evaluation of the proposed scheme's performance shows that it is more efficient than existing schemes with regards to computation cost, verification speed, and energy consumption. |
| format |
Article |
| author |
Mohammed, Badiea Abdulkarem Al-Shareeda, Mahmood A. Alsadhan, Abeer Abdullah Al-Mekhlafi, Zeyad Ghaleb Sallam, Amer A. Al-Qatab, Bassam Ali Alshammari, Mohammad T. Alayba, Abdulaziz M. |
| author_facet |
Mohammed, Badiea Abdulkarem Al-Shareeda, Mahmood A. Alsadhan, Abeer Abdullah Al-Mekhlafi, Zeyad Ghaleb Sallam, Amer A. Al-Qatab, Bassam Ali Alshammari, Mohammad T. Alayba, Abdulaziz M. |
| author_sort |
Mohammed, Badiea Abdulkarem |
| title |
Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing |
| title_short |
Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing |
| title_full |
Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing |
| title_fullStr |
Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing |
| title_full_unstemmed |
Efficient Blockchain-Based Pseudonym Authentication Scheme Supporting Revocation for 5G-Assisted Vehicular Fog Computing |
| title_sort |
efficient blockchain-based pseudonym authentication scheme supporting revocation for 5g-assisted vehicular fog computing |
| publisher |
Institute of Electrical and Electronics Engineers |
| publishDate |
2024 |
| url |
http://eprints.um.edu.my/45882/ https://doi.org/10.1109/ACCESS.2024.3372390 |
| _version_ |
1816130471920140288 |
| score |
13.214268 |