Performance analysis of physical signature authentication

Joseph A. O'Sullivan; Natalia A. Schmid

doi:10.1109/18.959284

Performance analysis of physical signature authentication

Joseph A. O'Sullivan
, Natalia A. Schmid

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

In physical signature authentication schemes, a candidate signature presented for authentication is compared to a previous signature measurement. Uniqueness of a signature is a result of a random physical process underlying the signature formation. In this correspondence, we model signatures as realizations of random processes with known statistics. Rate functions for the false alarm and miss probabilities are determined. The ease where the candidate signature and previous signature measurement are zero-mean, stationary, and Gaussian is covered in detail, yielding quantitative measures of performance for system design. The binary case is also discussed.

Original language	English
Pages (from-to)	3034-3039
Number of pages	6
Journal	IEEE Transactions on Information Theory
Volume	47
Issue number	7
DOIs	https://doi.org/10.1109/18.959284
State	Published - Nov 2001

Keywords

Information rates
Pattern classification
Physical signature authentication
Toeplitz matrices

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10.1109/18.959284

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abstract = "In physical signature authentication schemes, a candidate signature presented for authentication is compared to a previous signature measurement. Uniqueness of a signature is a result of a random physical process underlying the signature formation. In this correspondence, we model signatures as realizations of random processes with known statistics. Rate functions for the false alarm and miss probabilities are determined. The ease where the candidate signature and previous signature measurement are zero-mean, stationary, and Gaussian is covered in detail, yielding quantitative measures of performance for system design. The binary case is also discussed.",

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AB - In physical signature authentication schemes, a candidate signature presented for authentication is compared to a previous signature measurement. Uniqueness of a signature is a result of a random physical process underlying the signature formation. In this correspondence, we model signatures as realizations of random processes with known statistics. Rate functions for the false alarm and miss probabilities are determined. The ease where the candidate signature and previous signature measurement are zero-mean, stationary, and Gaussian is covered in detail, yielding quantitative measures of performance for system design. The binary case is also discussed.

KW - Information rates

KW - Pattern classification

KW - Physical signature authentication

KW - Toeplitz matrices

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DO - 10.1109/18.959284

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JO - IEEE Transactions on Information Theory

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ER -

Performance analysis of physical signature authentication

Abstract

Keywords

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