Embedded Palmprint Recognition System on Mobile Devices

Han, Yu; Tan, Tieniu; Sun, Zhenan; Ying, Hao

doi:10.1007/978-3-540-74549-5_123

Cited by 31 publications

(15 citation statements)

References 12 publications

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“…Obviously, mobile security is not so demanding as, for instance, an application in an international airport. In the literature, there exist previous approaches concerning biometrics and mobiles involving different biometric characteristics: Face Recognition on Symbian OS [16], [17], Voice Recognition [18], Keystroke Dynamics [19], Hand [11], Palmprint [20] or Finger Pressure [18], [19], [21]. All previous work coincide on the same conclusions: mobile devices imply limitations for biometric accuracy and efficiency, but provide a high degree of security in daily applications.…”

Section: Related Workmentioning

confidence: 93%

A Comparative Study on Unconstrained Hand Biometrics

Sierra

Casanova

Ávila

et al. 2011

2011 International Conference on Hand-Based Biometrics

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Abstract-Biometrics applied to mobile devices are of great interest for security applications. Daily scenarios can benefit of a combination of both the most secure systems and most simple and extended devices.This document presents a hand biometric system oriented to mobile devices, proposing a non-intrusive, contact-less acquisition process where final users should take a picture of their hand in free-space with a mobile device without removals of rings, bracelets or watches.The main contribution of this paper is threefold: firstly, a feature extraction method is proposed, providing invariant hand measurements to previous changes; second contribution consists of providing a template creation based on hand geometric distances, requiring information from only one individual, without considering data from the rest of individuals within the database; finally, a proposal for template matching is proposed, minimizing the intra-class similarity and maximizing the inter-class likeliness. The proposed method is evaluated using three publicly available contact-less, platform-free databases. In addition, the results obtained with these databases will be compared to the results provided by two competitive pattern recognition techniques, namely Support Vector Machines (SVM) and k-Nearest Neighbour, often employed within the literature. Therefore, this approach provides an appropriate solution to adapt hand biometrics to mobile devices, with an accurate results and a non-intrusive acquisition procedure which increases the overall acceptance from the final user.

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Section: Related Workmentioning

confidence: 93%

A Comparative Study on Unconstrained Hand Biometrics

Sierra

Casanova

Ávila

et al. 2011

2011 International Conference on Hand-Based Biometrics

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“…The applicability of using low resolution cameras equipped on PDAs or cellular phones for palmprint capturing has been studied in [20]. We implement all the four methods on an embedded platform equipped with an Intel XScale-PXA255 400 MHz embedded processor, 64 MB SDRAM and 32 MB Flash memory.…”

Section: Methodsmentioning

confidence: 99%

“…Suppose that the Palmprint ROI is 128 Â 128 pixels and the Gabor filters are 35 Â 35 in size, the overall MADD (Multiplication + Addition) operations required for one palmprint is around 120 million, leading to a very long processing time especially on slow mobile platforms. Experiments show that extracting the Competitive Code for one palmprint takes more than eight seconds on a state of the art PDA [20]. This is far too slow for a real-time biometric system.…”

Section: Introductionmentioning

confidence: 97%

Palmprint authentication using a symbolic representation of images

Chen

Moon

Wong

et al. 2010

Image and Vision Computing

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“…They proposed a baseline palmprint recognition method and created a palmrpint image database * 4 . In addition, some practical systems using palmrpint recognition have been proposed such as a palmprint recognition system for mobile phones 34) and a touchless palmprint recognition system 35) . There is a good survey paper for palmprint recognition 32)36) .…”

Section: Hand-based Biometricsmentioning

confidence: 99%

[Invited Paper] Recent Advances in Biometric Recognition

Ito

Aoki

2018

MTA

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This paper presents recent advances in biometric recognition, where we focus on face, fingerprint and iris recognition, which are major research topics on biometric recognition. We summarize the research trend of face, fingerprint and iris recognition over the past decade. This paper also presents our activities of biometric recognition. Our approach employs the phase information obtained by Discrete Fourier Transform (DFT) of images. The phase information preserves the inherent features of the image, and its correlation function, called phase correlation or Phase-Only Correlation (POC), gives us both the good similarity measure for biometric recognition and the translational displacement for image registration.Our approach of using phase information has been successfully applied to fingerprint, face, iris, palmprint, finger knuckle and dental recognition. Among them, we present some interesting results of palmprint recognition, finger knuckle recognition and dental recognition.

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Embedded Palmprint Recognition System on Mobile Devices

Cited by 31 publications

References 12 publications

A Comparative Study on Unconstrained Hand Biometrics

A Comparative Study on Unconstrained Hand Biometrics

Palmprint authentication using a symbolic representation of images

[Invited Paper] Recent Advances in Biometric Recognition

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