Ultralightweight mutual authentication RFID protocol for blockchain enabled supply chains
Ultralightweight mutual authentication RFID protocol for blockchain enabled supply chains
Previous research studies mostly focused on enhancing the security of radio frequency identification (RFID) protocols for various RFID applications that rely on a centralized database. However, blockchain technology is quickly emerging as a novel distributed and decentralized alternative that provides higher data protection, reliability, immutability, transparency, and lower management costs compared with a conventional centralized database. These properties make it extremely suitable for integration in a supply chain management system. In order to successfully fuse RFID and blockchain technologies together, a secure method of communication is required between the RFID tagged goods and the blockchain nodes. Therefore, this paper proposes a robust ultra-lightweight mutual authentication RFID protocol that works together with a decentralized database to create a secure blockchain-enabled supply chain management system. Detailed security analysis is performed to prove that the proposed protocol is secure from key disclosure, replay, man-in-the-middle, de-synchronization, and tracking attacks. In addition to that, a formal analysis is conducted using Gong, Needham, and Yahalom logic and automated validation of internet security protocols and applications tool to verify the security of the proposed protocol. The protocol is proven to be efficient with respect to storage, computational, and communication costs. In addition to that, a further step is taken to ensure the robustness of the protocol by analyzing the probability of data collision written to the blockchain.
Blockchain, distributed ledger technology, radio frequency identification
7273-7285
Sidorov, Michail
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Ong, Ming Tze
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Sridharan, Ravivarma Vikneswaren
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Nakamura, Junya
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Ohmura, Ren
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Khor, Jing Huey
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Sidorov, Michail
0a2501d4-8a93-4715-aa5e-3c5354761645
Ong, Ming Tze
3118415a-b7eb-46f5-b8f0-eb8ef9f195a2
Sridharan, Ravivarma Vikneswaren
4583d5d5-6612-4c0a-8087-75aa62981b1b
Nakamura, Junya
7d67aa27-8fa0-4b45-ad52-35631f352947
Ohmura, Ren
523c6f6c-817b-40cf-b86c-46d69cfd2d5d
Khor, Jing Huey
45840b0e-4bd3-4f49-8a97-fc00d3ad683e
Sidorov, Michail, Ong, Ming Tze, Sridharan, Ravivarma Vikneswaren, Nakamura, Junya, Ohmura, Ren and Khor, Jing Huey
(2019)
Ultralightweight mutual authentication RFID protocol for blockchain enabled supply chains.
IEEE Access, 7, , [8598865].
(doi:10.1109/ACCESS.2018.2890389).
Abstract
Previous research studies mostly focused on enhancing the security of radio frequency identification (RFID) protocols for various RFID applications that rely on a centralized database. However, blockchain technology is quickly emerging as a novel distributed and decentralized alternative that provides higher data protection, reliability, immutability, transparency, and lower management costs compared with a conventional centralized database. These properties make it extremely suitable for integration in a supply chain management system. In order to successfully fuse RFID and blockchain technologies together, a secure method of communication is required between the RFID tagged goods and the blockchain nodes. Therefore, this paper proposes a robust ultra-lightweight mutual authentication RFID protocol that works together with a decentralized database to create a secure blockchain-enabled supply chain management system. Detailed security analysis is performed to prove that the proposed protocol is secure from key disclosure, replay, man-in-the-middle, de-synchronization, and tracking attacks. In addition to that, a formal analysis is conducted using Gong, Needham, and Yahalom logic and automated validation of internet security protocols and applications tool to verify the security of the proposed protocol. The protocol is proven to be efficient with respect to storage, computational, and communication costs. In addition to that, a further step is taken to ensure the robustness of the protocol by analyzing the probability of data collision written to the blockchain.
Text
08598865
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Accepted/In Press date: 17 December 2018
e-pub ahead of print date: 1 January 2019
Keywords:
Blockchain, distributed ledger technology, radio frequency identification
Identifiers
Local EPrints ID: 427961
URI: http://eprints.soton.ac.uk/id/eprint/427961
ISSN: 2169-3536
PURE UUID: a2c870eb-bc56-457d-8d01-3bed2293a422
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Date deposited: 06 Feb 2019 17:30
Last modified: 05 Jun 2024 19:43
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Contributors
Author:
Michail Sidorov
Author:
Ming Tze Ong
Author:
Ravivarma Vikneswaren Sridharan
Author:
Junya Nakamura
Author:
Ren Ohmura
Author:
Jing Huey Khor
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