Entry Danev:2012:TPI from tissec.bib

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BibTeX entry

@Article{Danev:2012:TPI,
  author =       "Boris Danev and Srdjan Capkun and Ramya Jayaram Masti
                 and Thomas S. Benjamin",
  title =        "Towards Practical Identification of {HF RFID}
                 Devices",
  journal =      j-TISSEC,
  volume =       "15",
  number =       "2",
  pages =        "7:1--7:??",
  month =        jul,
  year =         "2012",
  CODEN =        "ATISBQ",
  DOI =          "https://doi.org/10.1145/2240276.2240278",
  ISSN =         "1094-9224 (print), 1557-7406 (electronic)",
  ISSN-L =       "1094-9224",
  bibdate =      "Tue Jul 31 17:02:31 MDT 2012",
  bibsource =    "http://portal.acm.org/;
                 http://www.math.utah.edu/pub/tex/bib/tissec.bib",
  abstract =     "The deployment of RFID poses a number of security and
                 privacy threats such as cloning, unauthorized tracking,
                 etc. Although the literature contains many
                 investigations of these issues on the logical level,
                 few works have explored the security implications of
                 the physical communication layer. Recently, related
                 studies have shown the feasibility of identifying
                 RFID-enabled devices based on physical-layer
                 fingerprints. In this work, we leverage on these
                 findings and demonstrate that physical-layer
                 identification of HF RFID devices is also practical,
                 that is, can achieve high accuracy and stability. We
                 propose an improved hardware setup and enhanced
                 techniques for fingerprint extraction and matching. Our
                 new system enables device identification with an Equal
                 Error Rate as low as 0.005 (0.5\%) on a set 50 HF RFID
                 smart cards of the same manufacturer and type. We
                 further investigate the fingerprint stability over an
                 extended period of time and across different
                 acquisition setups. In the latter case, we propose a
                 solution based on channel equalization that preserves
                 the fingerprint quality across setups. Our results
                 strengthen the practical use of physical-layer
                 identification of RFID devices in product and document
                 anti-counterfeiting solutions.",
  acknowledgement = ack-nhfb,
  articleno =    "7",
  fjournal =     "ACM Transactions on Information and System Security",
  journal-URL =  "http://portal.acm.org/browse_dl.cfm?idx=J789",
}

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