Randomizing RFID private authentication
Galveston, TX(2009)
摘要
Privacy protection is increasingly important during authentications in radio frequency identification (RFID) systems. In order to achieve high-speed authentication in large-scale RFID systems, researchers propose tree-based approaches, in which any pair of tags share a number of key components. Such designs, being efficient, often fail to achieve forward secrecy and resistance to attacks, such as compromising and desynchronization. Indeed, these attacks may still take effect even after a tag successfully finishes the authentication and key-updating procedure. To address the issue, we propose a lightweight RFID private authentication protocol, RWP, based on the random walk concept. RWP also provides the forward security and temporal resistance to the tracking attack. The analysis results show that RWP effectively enhances the security protection for RFID private authentication, and increases the authentication efficiency from O(logN) to O(1).
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关键词
temporal resistance,private authentication,authentication efficiency,rfid private authentication,security protection,large-scale rfid system,data privacy,forward secrecy,trees (mathematics),private authentication protocol,radio frequency identification,radiofrequency identification,randomizing rfid private authentication,random walk,lightweight rfid private authentication,forward security,telecommunication security,message authentication,rfid,random walk concept,high-speed authentication,tree-based approach,privacy protection,lightweight rfid,security,privacy,computer science,authentication protocol,radiation detectors,cryptography,protocols,resistance,authentication,databases
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