Entry Burmester:2009:UCR from tissec.bib

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BibTeX entry

@Article{Burmester:2009:UCR,
  author =       "Mike Burmester and Tri Van Le and Breno {De Medeiros}
                 and Gene Tsudik",
  title =        "Universally Composable {RFID} Identification and
                 Authentication Protocols",
  journal =      j-TISSEC,
  volume =       "12",
  number =       "4",
  pages =        "21:1--21:??",
  month =        apr,
  year =         "2009",
  CODEN =        "ATISBQ",
  DOI =          "https://doi.org/10.1145/1513601.1513603",
  ISSN =         "1094-9224 (print), 1557-7406 (electronic)",
  ISSN-L =       "1094-9224",
  bibdate =      "Thu May 14 13:53:50 MDT 2009",
  bibsource =    "http://portal.acm.org/;
                 http://www.math.utah.edu/pub/tex/bib/tissec.bib",
  abstract =     "As the number of RFID applications grows, concerns
                 about their security and privacy become greatly
                 amplified. At the same time, the acutely restricted and
                 cost-sensitive nature of RFID tags rules out simple
                 reuse of traditional security/privacy solutions and
                 calls for a new generation of extremely lightweight
                 identification and authentication protocols.\par

                 This article describes a universally composable
                 security framework designed especially for RFID
                 applications. We adopt RFID-specific setup,
                 communication, and concurrency assumptions in a model
                 that guarantees strong security, privacy, and
                 availability properties. In particular, the framework
                 supports modular deployment, which is most appropriate
                 for ubiquitous applications. We also describe a set of
                 simple, efficient, secure, and anonymous (untraceable)
                 RFID identification and authentication protocols that
                 instantiate the proposed framework. These protocols
                 involve minimal interaction between tags and readers
                 and place only a small computational load on the tag,
                 and a light computational burden on the back-end
                 server. We show that our protocols are provably secure
                 within the proposed framework.",
  acknowledgement = ack-nhfb,
  articleno =    "21",
  fjournal =     "ACM Transactions on Information and System Security",
  journal-URL =  "http://portal.acm.org/browse_dl.cfm?idx=J789",
  keywords =     "authentication and key-exchange protocols; RFID
                 security; universal composability",
}

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