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Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices

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Zeitschriftentitel: International Journal of Distributed Sensor Networks
Personen und Körperschaften: Islam, Md Saiful
In: International Journal of Distributed Sensor Networks, 11, 2015, 6, S. 549134
Format: E-Article
Sprache: Englisch
veröffentlicht:
SAGE Publications
Schlagwörter:
Computer Networks and Communications
General Engineering
author_facet Islam, Md Saiful
Islam, Md Saiful
author Islam, Md Saiful
spellingShingle Islam, Md Saiful
International Journal of Distributed Sensor Networks
Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
Computer Networks and Communications
General Engineering
author_sort islam, md saiful
spelling Islam, Md Saiful 1550-1477 1550-1477 SAGE Publications Computer Networks and Communications General Engineering http://dx.doi.org/10.1155/2015/549134 <jats:p> Biometric verification has been included in remote user authentication schemes recently. In this paper, we have proposed the use of heartbeat biometrics for its liveness property as a possible defense against spoof attacks in remote authentication. Sensor embedded mobile computing devices such as smart phones could be used to capture biometric signals and to replace the use of traditional smart cards. For the remote authentication, we have adopted the state-of-the-art scheme. We have described the biometric verification method instead of using cryptographic hash function for feature matching. We have used the piecewise aligned morphology (PAM) of heartbeat signal as a biometric feature. The biometric verification method was tested with ECG records of 100 individuals and 1.34% of equal error rate (EER) was obtained. This feature could be computed and transmitted efficiently using mobile computing devices. The proposed scheme offers more security and convenience to users. Additionally, it becomes robust against noisy biometric input. The proposed scheme should be feasible for remote authentication using sensor embedded computing devices in many practical applications such as remote healthcare. </jats:p> Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices International Journal of Distributed Sensor Networks
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title Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_unstemmed Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_full Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_fullStr Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_full_unstemmed Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_short Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_sort heartbeat biometrics for remote authentication using sensor embedded computing devices
topic Computer Networks and Communications
General Engineering
url http://dx.doi.org/10.1155/2015/549134
publishDate 2015
physical 549134
description <jats:p> Biometric verification has been included in remote user authentication schemes recently. In this paper, we have proposed the use of heartbeat biometrics for its liveness property as a possible defense against spoof attacks in remote authentication. Sensor embedded mobile computing devices such as smart phones could be used to capture biometric signals and to replace the use of traditional smart cards. For the remote authentication, we have adopted the state-of-the-art scheme. We have described the biometric verification method instead of using cryptographic hash function for feature matching. We have used the piecewise aligned morphology (PAM) of heartbeat signal as a biometric feature. The biometric verification method was tested with ECG records of 100 individuals and 1.34% of equal error rate (EER) was obtained. This feature could be computed and transmitted efficiently using mobile computing devices. The proposed scheme offers more security and convenience to users. Additionally, it becomes robust against noisy biometric input. The proposed scheme should be feasible for remote authentication using sensor embedded computing devices in many practical applications such as remote healthcare. </jats:p>
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description <jats:p> Biometric verification has been included in remote user authentication schemes recently. In this paper, we have proposed the use of heartbeat biometrics for its liveness property as a possible defense against spoof attacks in remote authentication. Sensor embedded mobile computing devices such as smart phones could be used to capture biometric signals and to replace the use of traditional smart cards. For the remote authentication, we have adopted the state-of-the-art scheme. We have described the biometric verification method instead of using cryptographic hash function for feature matching. We have used the piecewise aligned morphology (PAM) of heartbeat signal as a biometric feature. The biometric verification method was tested with ECG records of 100 individuals and 1.34% of equal error rate (EER) was obtained. This feature could be computed and transmitted efficiently using mobile computing devices. The proposed scheme offers more security and convenience to users. Additionally, it becomes robust against noisy biometric input. The proposed scheme should be feasible for remote authentication using sensor embedded computing devices in many practical applications such as remote healthcare. </jats:p>
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spelling Islam, Md Saiful 1550-1477 1550-1477 SAGE Publications Computer Networks and Communications General Engineering http://dx.doi.org/10.1155/2015/549134 <jats:p> Biometric verification has been included in remote user authentication schemes recently. In this paper, we have proposed the use of heartbeat biometrics for its liveness property as a possible defense against spoof attacks in remote authentication. Sensor embedded mobile computing devices such as smart phones could be used to capture biometric signals and to replace the use of traditional smart cards. For the remote authentication, we have adopted the state-of-the-art scheme. We have described the biometric verification method instead of using cryptographic hash function for feature matching. We have used the piecewise aligned morphology (PAM) of heartbeat signal as a biometric feature. The biometric verification method was tested with ECG records of 100 individuals and 1.34% of equal error rate (EER) was obtained. This feature could be computed and transmitted efficiently using mobile computing devices. The proposed scheme offers more security and convenience to users. Additionally, it becomes robust against noisy biometric input. The proposed scheme should be feasible for remote authentication using sensor embedded computing devices in many practical applications such as remote healthcare. </jats:p> Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices International Journal of Distributed Sensor Networks
spellingShingle Islam, Md Saiful, International Journal of Distributed Sensor Networks, Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices, Computer Networks and Communications, General Engineering
title Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_full Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_fullStr Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_full_unstemmed Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_short Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
title_sort heartbeat biometrics for remote authentication using sensor embedded computing devices
title_unstemmed Heartbeat Biometrics for Remote Authentication Using Sensor Embedded Computing Devices
topic Computer Networks and Communications, General Engineering
url http://dx.doi.org/10.1155/2015/549134