VoicePop: A Pop Noise based Anti-spoofing System for Voice Authentication on Smartphones

Voice biometrics is widely adopted for identity authentication in mobile devices. However, voice authentication is vulnerable to spoofing attacks, where an adversary may deceive the voice authentication system with pre-recorded or synthesized samples from the legitimate user or by impersonating the...

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Bibliographic Details
Main Authors: Wang, Qian, Lin, Xiu, Zhou, Man, Chen, Yanjiao, Wang, Cong, Li, Qi, Luo, Xiangyang
Format: Conference Proceeding
Language:English
Subjects:
Authentication
Feature extraction
Law
Microphones
Mouth
Smart phones
Tongue
Online Access:Request full text
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Summary:Voice biometrics is widely adopted for identity authentication in mobile devices. However, voice authentication is vulnerable to spoofing attacks, where an adversary may deceive the voice authentication system with pre-recorded or synthesized samples from the legitimate user or by impersonating the speaking style of the targeted user. In this paper, we design and implement VoicePop, a robust software-only anti-spoofing system on smartphones. VoicePop leverages the pop noise, which is produced by the user breathing while speaking close to the microphone. The pop noise is delicate and subject to user diversity, making it hard to record by replay attacks beyond a certain distance and to imitate precisely by impersonators. We design a novel pop noise detection scheme to pinpoint pop noises at the phonemic level, based on which we establish individually unique relationship between phonemes and pop noises to identify legitimate users and defend against spoofing attacks. Our experimental results with 18 participants and three types of smartphones show that VoicePop achieves over 93.5% detection accuracy at around 5.4% equal error rate. VoicePop requires no additional hardware but only the built-in microphones in virtually all smartphones, which can be readily integrated in existing voice authentication systems for mobile devices.
ISSN:2641-9874
DOI:10.1109/INFOCOM.2019.8737422