Super lightweight mobile RFID authentication protocol for bit replacement operation

Int. J. RF Technol. Res. Appl. Pub Date : 2021-01-01 DOI:10.3233/rft-200246

Yubao Hou, Hua Liang, Juan Liu

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引用次数: 2

Abstract

In the traditional RFID (Radio Frequency IDentification) system, a secure wired channel communication is used between the reader and the server. The newly produced mobile RFID system is different from the traditional RFID system, the communication between the reader and the server is based on a wireless channel, and the authentication protocol is suitable for traditional RFID systems, but it cannot be used in mobile RFID systems. To solve this problem, a mutual authentication protocol MSB (Most Significant Bit) for super lightweight mobile radio frequency identification system is proposed based on bit replacement operation. MSB is a bitwise operation to encrypt information and reduce the computational load of communication entities. Label, readers, and servers authenticate first and then communicate, MSB may be used to resistant to common attacks. The security analysis of the protocol shows that the protocol has high security properties, the performance analysis of the protocol shows that the protocol has the characteristics of low computational complexity, the formal analysis of the protocol based on GNY logic Gong et al. (1990) provides a rigorous reasoning proof process for the protocol.

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用于位替换操作的超轻量级移动RFID认证协议

在传统的RFID(射频识别)系统中，读写器和服务器之间使用安全的有线信道通信。新生产的移动RFID系统与传统RFID系统不同，读写器与服务器之间的通信基于无线信道，认证协议适用于传统RFID系统，但不能用于移动RFID系统。为了解决这一问题，提出了一种基于比特替换操作的超轻量移动射频识别系统互认证协议MSB (Most Significant Bit)。MSB是一种对信息进行加密和减少通信实体计算负荷的位操作。标签、阅读器和服务器先认证后通信，MSB可以用来抵御常见的攻击。协议的安全性分析表明协议具有较高的安全属性，协议的性能分析表明协议具有低计算复杂度的特点，基于GNY逻辑的协议形式化分析Gong et al.(1990)为协议提供了严格的推理证明过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Int. J. RF Technol. Res. Appl.

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