The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Nos últimos anos, com o desenvolvimento contínuo da Internet das Coisas, a tecnologia de identificação por radiofrequência (RFID) também tem sido amplamente preocupada. O poder computacional das tags de baixo custo é limitado devido aos seus altos requisitos de hardware. Algoritmos de criptografia simétrica e algoritmos de criptografia assimétrica, como RSA, DES, AES, etc., não podem ser adequados para protocolos RFID de baixo custo. Portanto, a pesquisa sobre protocolos de autenticação de segurança RFID com baixo custo e alta segurança tornou-se um foco. Recentemente, um protocolo de autenticação RFID ultraleve LP2A UF foi proposta para fornecer segurança e prevenir todos os ataques possíveis. Porém, descobre-se que um tipo de ataque de dessincronização pode quebrar com sucesso o esquema proposto. Para superar a vulnerabilidade contra ataques de dessincronização, propomos aqui um novo protocolo de autenticação bidirecional RFID ultraleve baseado em tecnologia de cifra de fluxo que usa apenas XOR. A cifra de fluxo é empregada para garantir a segurança entre leitores e tags. A análise mostra que nosso protocolo pode resistir efetivamente a ataques de rastreamento de posição, ataques de dessincronização e ataques de repetição.
Lijun GAO
Shenyang Aerospace University
Feng LIN
Shenyang Aerospace University
Maode MA
Shenyang Aerospace University
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Lijun GAO, Feng LIN, Maode MA, "Research on Ultra-Lightweight RFID Mutual Authentication Protocol Based on Stream Cipher" in IEICE TRANSACTIONS on Communications,
vol. E104-B, no. 1, pp. 13-19, January 2021, doi: 10.1587/transcom.2020EBP3022.
Abstract: In recent years, with the continuous development of the Internet of Things, radio frequency identification (RFID) technology has also been widely concerned. The computing power of low cost tags is limited because of their high hardware requirements. Symmetric encryption algorithms and asymmetric encryption algorithms, such as RSA, DES, AES, etc., cannot be suitable for low cost RFID protocols. Therefore, research on RFID security authentication protocols with low cost and high security has become a focus. Recently, an ultralightweight RFID authentication protocol LP2UF was proposed to provide security and prevent all possible attacks. However, it is discovered that a type of desynchronization attack can successfully break the proposed scheme. To overcome the vulnerability against desynchronization attacks, we propose here a new ultra-lightweight RFID two-way authentication protocol based on stream cipher technology that uses only XOR. The stream cipher is employed to ensure security between readers and tags. Analysis shows that our protocol can effectively resist position tracking attacks, desynchronization attacks, and replay attacks.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.2020EBP3022/_p
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@ARTICLE{e104-b_1_13,
author={Lijun GAO, Feng LIN, Maode MA, },
journal={IEICE TRANSACTIONS on Communications},
title={Research on Ultra-Lightweight RFID Mutual Authentication Protocol Based on Stream Cipher},
year={2021},
volume={E104-B},
number={1},
pages={13-19},
abstract={In recent years, with the continuous development of the Internet of Things, radio frequency identification (RFID) technology has also been widely concerned. The computing power of low cost tags is limited because of their high hardware requirements. Symmetric encryption algorithms and asymmetric encryption algorithms, such as RSA, DES, AES, etc., cannot be suitable for low cost RFID protocols. Therefore, research on RFID security authentication protocols with low cost and high security has become a focus. Recently, an ultralightweight RFID authentication protocol LP2UF was proposed to provide security and prevent all possible attacks. However, it is discovered that a type of desynchronization attack can successfully break the proposed scheme. To overcome the vulnerability against desynchronization attacks, we propose here a new ultra-lightweight RFID two-way authentication protocol based on stream cipher technology that uses only XOR. The stream cipher is employed to ensure security between readers and tags. Analysis shows that our protocol can effectively resist position tracking attacks, desynchronization attacks, and replay attacks.},
keywords={},
doi={10.1587/transcom.2020EBP3022},
ISSN={1745-1345},
month={January},}
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TY - JOUR
TI - Research on Ultra-Lightweight RFID Mutual Authentication Protocol Based on Stream Cipher
T2 - IEICE TRANSACTIONS on Communications
SP - 13
EP - 19
AU - Lijun GAO
AU - Feng LIN
AU - Maode MA
PY - 2021
DO - 10.1587/transcom.2020EBP3022
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E104-B
IS - 1
JA - IEICE TRANSACTIONS on Communications
Y1 - January 2021
AB - In recent years, with the continuous development of the Internet of Things, radio frequency identification (RFID) technology has also been widely concerned. The computing power of low cost tags is limited because of their high hardware requirements. Symmetric encryption algorithms and asymmetric encryption algorithms, such as RSA, DES, AES, etc., cannot be suitable for low cost RFID protocols. Therefore, research on RFID security authentication protocols with low cost and high security has become a focus. Recently, an ultralightweight RFID authentication protocol LP2UF was proposed to provide security and prevent all possible attacks. However, it is discovered that a type of desynchronization attack can successfully break the proposed scheme. To overcome the vulnerability against desynchronization attacks, we propose here a new ultra-lightweight RFID two-way authentication protocol based on stream cipher technology that uses only XOR. The stream cipher is employed to ensure security between readers and tags. Analysis shows that our protocol can effectively resist position tracking attacks, desynchronization attacks, and replay attacks.
ER -