The Effect of Image Alterations on Identification Using Palmar Flexion Creases |
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| Authors: | Tom Cook B.Sc. Raul Sutton Ph.D. Kevan Buckley Ph.D. |
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| Affiliation: | 1. School of Applied Sciences, University of Wolverhampton, , Wolverhampton, WV1 1LY U.K;2. School of Computing and Information Technology, University of Wolverhampton, , Wolverhampton, WV1 1LY U.K |
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| Abstract: | Palmprints are identified using matching of minutia points, which can be time consuming for fingerprint experts and in database searches. This article analyzes the operational characteristics of a palmar flexion crease (PFC) identification software tool, using a dataset of 10 replicates of 100 palms, where the user can label and match palmar line features. Results show that 100 palmprint images modified 10 times each using rotation, translation, and additive noise, mimicking some of the characteristics found in crime scene palmar marks, can be identified with a 99.2% genuine acceptance rate and 0% false acceptance rate when labeled within 3.5 mm of the PFC. Partial palmprint images can also be identified using the same method to filter the dataset prior to traditional matching, while maintaining an effective genuine acceptance rate. The work shows that identification using PFCs can improve palmprint identification through integration with existing systems, and through dedicated palmprint identification applications. |
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| Keywords: | forensic science personal identification palmprint flexion crease principal lines biometrics |
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