Voice in ear: spoofing-resistant and passphrase-independent body sound authentication
Voice in ear: spoofing-resistant and passphrase-independent body sound authentication
With the rapid growth of wearable computing and increasing demand for mobile authentication scenarios, voiceprint-based authentication has become one of the prevalent technologies and has already presented tremendous potentials to the public. However, it is vulnerable to voice spoofing attacks (e.g., replay attacks and synthetic voice attacks). To address this threat, we propose a new biometric authentication approach, named EarPrint, which aims to extend voiceprint and build a hidden and secure user authentication scheme on earphones. EarPrint builds on the speaking-induced body sound transmission from the throat to the ear canal, i.e., different users will have different body sound conduction patterns on both sides of ears. As the first exploratory study, extensive experiments on 23 subjects show the EarPrint is robust against ambient noises and body motions. EarPrint achieves an Equal Error Rate (EER) of 3.64% with 75 seconds enrollment data. We also evaluate the resilience of EarPrint against replay attacks. A major contribution of EarPrint is that it leverages two-level uniqueness, including the body sound conduction from the throat to the ear canal and the body asymmetry between the left and the right ears, taking advantage of earphones' paring form-factor. Compared with other mobile and wearable biometric modalities, EarPrint is a low-cost, accurate, and secure authentication solution for earphone users.
authentication, earphones, Voiceprint
Gao, Yang
f97a309e-6a1b-49a8-bab0-3cdd431c3ece
Jin, Yincheng
4ba702a8-e154-426c-87e5-fbe23b7d839e
Chauhan, Jagmohan
831a12dc-6df9-40ea-8bb3-2c5da8882804
Choi, Seokmin
56d5ba4c-a7b0-48f1-98cf-6ffe30379ddc
Li, Jiyang
ed6ad869-2dbe-4832-8940-2318aa714a1d
Jin, Zhanpeng
2dc91f6a-d27f-449d-81ac-501c14c1f91f
30 March 2021
Gao, Yang
f97a309e-6a1b-49a8-bab0-3cdd431c3ece
Jin, Yincheng
4ba702a8-e154-426c-87e5-fbe23b7d839e
Chauhan, Jagmohan
831a12dc-6df9-40ea-8bb3-2c5da8882804
Choi, Seokmin
56d5ba4c-a7b0-48f1-98cf-6ffe30379ddc
Li, Jiyang
ed6ad869-2dbe-4832-8940-2318aa714a1d
Jin, Zhanpeng
2dc91f6a-d27f-449d-81ac-501c14c1f91f
Gao, Yang, Jin, Yincheng, Chauhan, Jagmohan, Choi, Seokmin, Li, Jiyang and Jin, Zhanpeng
(2021)
Voice in ear: spoofing-resistant and passphrase-independent body sound authentication.
Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies, 5 (1), [3448113].
(doi:10.1145/3448113).
Abstract
With the rapid growth of wearable computing and increasing demand for mobile authentication scenarios, voiceprint-based authentication has become one of the prevalent technologies and has already presented tremendous potentials to the public. However, it is vulnerable to voice spoofing attacks (e.g., replay attacks and synthetic voice attacks). To address this threat, we propose a new biometric authentication approach, named EarPrint, which aims to extend voiceprint and build a hidden and secure user authentication scheme on earphones. EarPrint builds on the speaking-induced body sound transmission from the throat to the ear canal, i.e., different users will have different body sound conduction patterns on both sides of ears. As the first exploratory study, extensive experiments on 23 subjects show the EarPrint is robust against ambient noises and body motions. EarPrint achieves an Equal Error Rate (EER) of 3.64% with 75 seconds enrollment data. We also evaluate the resilience of EarPrint against replay attacks. A major contribution of EarPrint is that it leverages two-level uniqueness, including the body sound conduction from the throat to the ear canal and the body asymmetry between the left and the right ears, taking advantage of earphones' paring form-factor. Compared with other mobile and wearable biometric modalities, EarPrint is a low-cost, accurate, and secure authentication solution for earphone users.
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More information
Published date: 30 March 2021
Keywords:
authentication, earphones, Voiceprint
Identifiers
Local EPrints ID: 491843
URI: http://eprints.soton.ac.uk/id/eprint/491843
PURE UUID: cf816718-8d1f-4758-9b81-e1d9f32c3e38
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Date deposited: 04 Jul 2024 17:02
Last modified: 10 Jul 2024 20:14
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Contributors
Author:
Yang Gao
Author:
Yincheng Jin
Author:
Jagmohan Chauhan
Author:
Seokmin Choi
Author:
Jiyang Li
Author:
Zhanpeng Jin
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