AudioUnlock: Device-to-Device Authentication via Acoustic Signatures and One-Class Classifiers
Alfred Anistoroaei, Patricia Iosif, Camelia Burlacu, Adriana Berdich, Bogdan Groza

TL;DR
This paper introduces AudioUnlock, a device authentication system using acoustic signatures and one-class classifiers to verify devices in environments like vehicles.
Contribution
The novel approach uses one-class classification to authenticate a single device without needing data from other devices during training.
Findings
AudioUnlock achieves recognition rates from 50% to 100% across various environmental conditions.
The system is tested using smartphones and automotive-grade headunits with over 5000 measurements.
Abstract
Acoustic fingerprints can be used for device-to-device authentication due to manufacturing-induced variations in microphones and speakers. However, previous works have focused mostly on recognizing single devices from a set of multiple devices, which may not be sufficiently realistic since in practice, a single device has to be recognized from a very large pool of devices that are not available for training machine learning classifiers. Therefore, in this work, we focus on one-class classification algorithms, namely one-class Support Vector Machine and the local outlier factor. As such, learning the fingerprint of a single device is sufficient to recognize the legitimate device and reject all other attempts to impersonate it. The proposed application can also rely on cloud-based deployment to free the smartphone from intensive computational tasks or data storage. For the experimental…
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Taxonomy
TopicsDigital Media Forensic Detection · Music and Audio Processing · Speech and Audio Processing
