GaitPrivacyON: privacy-preserving mobile gait biometrics using unsupervised learning
GaitPrivacyON: privacy-preserving mobile gait biometrics using unsupervised learning
Numerous studies in the literature have already shown the potential of biometrics on mobile devices for authentication purposes. However, it has been shown that, the learning processes associated to biometric systems might expose sensitive personal information about the subjects. This study proposes GaitPrivacyON, a novel mobile gait biometrics verification approach that provides accurate authentication results while preserving the sensitive information of the subject. It comprises two modules: i) two convolutional Autoencoders with shared weights that transform attributes of the biometric raw data, such as the gender or the activity being performed, into a new privacy-preserving representation; and ii) a mobile gait verification system based on the combination of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) with a Siamese architecture. The main advantage of GaitPrivacyON is that the first module (convolutional Autoencoders) is trained in an unsupervised way, without specifying the sensitive attributes of the subject to protect. Two experimental studies have been examinated: i) MotionSense and MobiAct databases; and ii) OU-ISIR database. The experimental results achieved suggest the potential of GaitPrivacyON to significantly improve the privacy of the subject while keeping user authentication results higher than 96.6AUC). To the best of our knowledge, this is the first mobile gait verification approach that considers privacy-preserving methods trained in an unsupervised way.
Privacy preserving, Sensitive data, Gait verification, Mobile sensors, Biometrics
30-37
Delgado-Santos, Paula
61d96aa4-4228-4b7d-9e55-45737560512e
Tolosana, Ruben
93125127-5ac2-4e76-94aa-4d09f28a3e51
Guest, Richard
93533dbd-b101-491b-83cc-39ccfdc18165
Vera-Rodriguez, Ruben
d9c7e17e-332c-47ac-a9a9-30cc75d26a3e
Deravi, Farzin
15f7c2ec-bd1e-4819-9ca9-7e179385dfa7
Morales, Aythami
158f3aeb-4e1d-49b2-854e-175946a4cb1f
23 July 2022
Delgado-Santos, Paula
61d96aa4-4228-4b7d-9e55-45737560512e
Tolosana, Ruben
93125127-5ac2-4e76-94aa-4d09f28a3e51
Guest, Richard
93533dbd-b101-491b-83cc-39ccfdc18165
Vera-Rodriguez, Ruben
d9c7e17e-332c-47ac-a9a9-30cc75d26a3e
Deravi, Farzin
15f7c2ec-bd1e-4819-9ca9-7e179385dfa7
Morales, Aythami
158f3aeb-4e1d-49b2-854e-175946a4cb1f
Delgado-Santos, Paula, Tolosana, Ruben, Guest, Richard, Vera-Rodriguez, Ruben, Deravi, Farzin and Morales, Aythami
(2022)
GaitPrivacyON: privacy-preserving mobile gait biometrics using unsupervised learning.
Pattern Recognition Letters, 161, .
(doi:10.1016/j.patrec.2022.07.015).
Abstract
Numerous studies in the literature have already shown the potential of biometrics on mobile devices for authentication purposes. However, it has been shown that, the learning processes associated to biometric systems might expose sensitive personal information about the subjects. This study proposes GaitPrivacyON, a novel mobile gait biometrics verification approach that provides accurate authentication results while preserving the sensitive information of the subject. It comprises two modules: i) two convolutional Autoencoders with shared weights that transform attributes of the biometric raw data, such as the gender or the activity being performed, into a new privacy-preserving representation; and ii) a mobile gait verification system based on the combination of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) with a Siamese architecture. The main advantage of GaitPrivacyON is that the first module (convolutional Autoencoders) is trained in an unsupervised way, without specifying the sensitive attributes of the subject to protect. Two experimental studies have been examinated: i) MotionSense and MobiAct databases; and ii) OU-ISIR database. The experimental results achieved suggest the potential of GaitPrivacyON to significantly improve the privacy of the subject while keeping user authentication results higher than 96.6AUC). To the best of our knowledge, this is the first mobile gait verification approach that considers privacy-preserving methods trained in an unsupervised way.
Text
1-s2.0-S0167865522002264-main
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More information
Accepted/In Press date: 17 July 2022
e-pub ahead of print date: 20 July 2022
Published date: 23 July 2022
Keywords:
Privacy preserving, Sensitive data, Gait verification, Mobile sensors, Biometrics
Identifiers
Local EPrints ID: 489602
URI: http://eprints.soton.ac.uk/id/eprint/489602
ISSN: 0167-8655
PURE UUID: 6234b118-6b1a-41d7-b135-17c9a5264081
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Date deposited: 29 Apr 2024 16:44
Last modified: 30 Apr 2024 02:05
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Contributors
Author:
Paula Delgado-Santos
Author:
Ruben Tolosana
Author:
Richard Guest
Author:
Ruben Vera-Rodriguez
Author:
Farzin Deravi
Author:
Aythami Morales
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