FPGA-based embedded system implementation of finger vein biometrics
With the ubiquitous deployment and rapid growth of electronic information systems in today's society, personal or identity verification is now a critical key problem. Due to this fact, biometric authentication has emergently gaining popularity as it provides a high security and reliable approac...
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| Vydáno v: | 2010 IEEE Symposium on Industrial Electronics and Applications s. 700 - 705 |
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| Hlavní autoři: | , |
| Médium: | Konferenční příspěvek |
| Jazyk: | angličtina |
| Vydáno: |
IEEE
01.10.2010
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| ISBN: | 1424476453, 9781424476459 |
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| Abstract | With the ubiquitous deployment and rapid growth of electronic information systems in today's society, personal or identity verification is now a critical key problem. Due to this fact, biometric authentication has emergently gaining popularity as it provides a high security and reliable approach for personal authentication. However, authentication using ones biometric features has not been widely implemented in a real time embedded system. Thus, in this paper, a novel approach to personal verification using infrared finger vein biometric authentication implemented on FPGA-based embedded system is presented. Creating a biometric authentication system in this resource-constrained embedded system for a real-time application, being a challenging problem in itself, is a significant contribution of this work. The proposed biometric system consists of four modules, namely image acquisition, image pre-processing, feature extraction, and matching. Feature extraction is based on minutiae extracted from the vein pattern image, while the biometric matching utilizes a technique based on the Modified Hausdorff Distance. The system is prototyped on Altera Stratix II FPGA hardware board with Nios2-Linux Real Time Operating System running at 100 MHz clock rate. Experiments conducted on a database of 100 images from 20 different hands shows encouraging results with system acceptable accuracy of less than 1.004%. Our first version of the embedded system, which is wholly in firmware, resulted in an execution time of 1953×10 6 clock cycles or 19 seconds. The results demonstrate that our approach is valid and effective for vein-pattern biometric authentication. |
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| AbstractList | With the ubiquitous deployment and rapid growth of electronic information systems in today's society, personal or identity verification is now a critical key problem. Due to this fact, biometric authentication has emergently gaining popularity as it provides a high security and reliable approach for personal authentication. However, authentication using ones biometric features has not been widely implemented in a real time embedded system. Thus, in this paper, a novel approach to personal verification using infrared finger vein biometric authentication implemented on FPGA-based embedded system is presented. Creating a biometric authentication system in this resource-constrained embedded system for a real-time application, being a challenging problem in itself, is a significant contribution of this work. The proposed biometric system consists of four modules, namely image acquisition, image pre-processing, feature extraction, and matching. Feature extraction is based on minutiae extracted from the vein pattern image, while the biometric matching utilizes a technique based on the Modified Hausdorff Distance. The system is prototyped on Altera Stratix II FPGA hardware board with Nios2-Linux Real Time Operating System running at 100 MHz clock rate. Experiments conducted on a database of 100 images from 20 different hands shows encouraging results with system acceptable accuracy of less than 1.004%. Our first version of the embedded system, which is wholly in firmware, resulted in an execution time of 1953×10 6 clock cycles or 19 seconds. The results demonstrate that our approach is valid and effective for vein-pattern biometric authentication. |
| Author | Eng, P C Khalil-Hani, M |
| Author_xml | – sequence: 1 givenname: M surname: Khalil-Hani fullname: Khalil-Hani, M email: khalil@fke.utm.my organization: Fac. of Electr. Eng., Univ. Teknol. Malaysia, Skudai, Malaysia – sequence: 2 givenname: P C surname: Eng fullname: Eng, P C email: peichee84@hotmail.com organization: Fac. of Electr. Eng., Univ. Teknol. Malaysia, Skudai, Malaysia |
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| Snippet | With the ubiquitous deployment and rapid growth of electronic information systems in today's society, personal or identity verification is now a critical key... |
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| SubjectTerms | Authentication Biometric Biometrics Embedded System Feature extraction Finger Vein Fingers FPGA Gray-scale Pixel RTOS Veins |
| Title | FPGA-based embedded system implementation of finger vein biometrics |
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