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Diffusion-Confusion Based Light-Weight Security for Item-RFID Tag-Reader Communication
Abstract
In this paper we propose a challenge-response protocol called: DCSTaR, which takes a novel approach to solve security issues that are specific to low-cost item-RFID tags. Our DCSTaR protocol is built upon light-weight primitives such as 16 bit: Random Number Generator, Exclusive-OR, and Cyclic Redundancy Check and utilizing these primitives it also provides a simple Diffusion-Confusion cipher to encrypt the challenge and response from the tag to the RFID reader. As a result our protocol achieves RFID tag-reader-server mutual authentication, communicating-data confidentiality and integrity, secure key-distribution and key-protection. It also provides an efficient way for consumers to verify whether tagged items are genuine or fake and to protect consumers' privacy while carrying tagged items.
Keywords
RFID; Tag-Reader communication security; Light-weight cryptography; Customer privacy; Diffusion-Confusion cipher; EPCglobal Class-1 Gen-2
Citation Format:
Divyan Munirathnam Konidala, Kwangjo Kim, Made Harta Dwijaksara, Daeyoung Kim, "Diffusion-Confusion Based Light-Weight Security for Item-RFID Tag-Reader Communication," Journal of Internet Technology, vol. 12, no. 4 , pp. 669-677, Jul. 2011.
Divyan Munirathnam Konidala, Kwangjo Kim, Made Harta Dwijaksara, Daeyoung Kim, "Diffusion-Confusion Based Light-Weight Security for Item-RFID Tag-Reader Communication," Journal of Internet Technology, vol. 12, no. 4 , pp. 669-677, Jul. 2011.
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Published by Executive Committee, Taiwan Academic Network, Ministry of Education, Taipei, Taiwan, R.O.C
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