Detection of Audio Tampering Based on Electric Network Frequency Signal

Author:

Hsu Hsiang-Ping1,Jiang Zhong-Ren2,Li Lo-Ya2,Tsai Tsai-Chuan2,Hung Chao-Hsiang2,Chang Sheng-Chain2,Wang Syu-Siang2,Fang Shih-Hau2ORCID

Affiliation:

1. Forensic Science Division, Ministry of Justice Investigation Bureau, New Taipei City 231, Taiwan

2. Department of Electrical Engineering, Yuan Ze University, Taoyuan 320, Taiwan

Abstract

The detection of audio tampering plays a crucial role in ensuring the authenticity and integrity of multimedia files. This paper presents a novel approach to identifying tampered audio files by leveraging the unique Electric Network Frequency (ENF) signal, which is inherent to the power grid and serves as a reliable indicator of authenticity. The study begins by establishing a comprehensive Chinese ENF database containing diverse ENF signals extracted from audio files. The proposed methodology involves extracting the ENF signal, applying wavelet decomposition, and utilizing the autoregressive model to train effective classification models. Subsequently, the framework is employed to detect audio tampering and assess the influence of various environmental conditions and recording devices on the ENF signal. Experimental evaluations conducted on our Chinese ENF database demonstrate the efficacy of the proposed method, achieving impressive accuracy rates ranging from 91% to 93%. The results emphasize the significance of ENF-based approaches in enhancing audio file forensics and reaffirm the necessity of adopting reliable tamper detection techniques in multimedia authentication.

Funder

Ministry of Justice

Publisher

MDPI AG

Subject

Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry

Reference26 articles.

1. Current Developments and Future Trends in Audio Authentication;Gupta;IEEE Multimed.,2012

2. Digital audio recording analysis–the electric network frequency criterion;Grigoras;Int. J. Speech Lang. Law,2005

3. Brixen, E.B. (2017, January 5–8). Techniques for the authentication of digital audio recordings. Proceedings of the 122nd Audio Engineering Society Convention, Vienna, Austria.

4. Audio forensic examination;Maher;IEEE Signal Process. Mag.,2009

5. Huijbregtse, M., and Geradts, Z. (2009, January 13–14). Using the ENF criterion for determining the time of recording of short digital audio recordings. Proceedings of the Computational Forensics: Third International Workshop, The Hague, The Netherlands.

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