• DocumentCode
    1836523
  • Title

    High confidence recognition of persons by iris patterns

  • Author

    Daugman, John

  • Author_Institution
    Comput. Lab., Cambridge Univ., UK
  • fYear
    2001
  • fDate
    37165
  • Firstpage
    254
  • Lastpage
    263
  • Abstract
    Algorithms developed by the author for recognizing persons by their iris patterns have now been tested in six field and laboratory trials, producing no false matches in several million comparison tests. The recognition principle is the failure of a test of statistical independence on iris phase structure encoded by multi-scale quadrature wavelets. The combinatorial complexity of this phase information across different persons spans about 244 degrees of freedom and generates a discrimination entropy of about 3.2 bits/mm2 over the iris, enabling real-time decisions about personal identity with extremely high confidence. The high confidence levels are important because they allow very large databases to be searched exhaustively (one-to-many "identification mode") without making any false matches, despite so many chances. Biometrics lacking this property can only survive one-to-one ("verification") or few comparisons. The paper explains the algorithms for iris recognition, and presents the results of 2.3 million comparisons among eye images acquired in trials in Britain, the USA, and Japan
  • Keywords
    biometrics (access control); eye; image recognition; information retrieval; real-time systems; very large databases; visual databases; wavelet transforms; biometrics; combinatorial complexity; discrimination entropy; false matches; high confidence levels; high confidence recognition; identification mode; iris patterns; iris phase structure; multi-scale quadrature wavelets; person recognition; personal identity; phase information; real-time decisions; recognition principle; statistical independence; very large databases; Databases; Entropy; Error analysis; Face detection; Iris recognition; Lighting; Pattern matching; Pattern recognition; Pigmentation; Testing;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Security Technology, 2001 IEEE 35th International Carnahan Conference on
  • Conference_Location
    London
  • Print_ISBN
    0-7803-6636-0
  • Type

    conf

  • DOI
    10.1109/.2001.962841
  • Filename
    962841