Statistics-aware Audio-visual Deepfake Detector
Abstract
In this paper, we propose an enhanced audio-visual deep detection method. Recent methods in audio-visual deepfake detection mostly assess the synchronization between audio and visual features. Although they have shown promising results, they are based on the maximization/minimization of isolated feature distances without considering feature statistics. Moreover, they rely on cumbersome deep learning architectures and are heavily dependent on empirically fixed hyperparameters. Herein, to overcome these limitations, we propose: (1) a statistical feature loss to enhance the discrimination capability of the model, instead of relying solely on feature distances; (2) using the waveform for describing the audio as a replacement of frequency-based representations; (3) a post-processing normalization of the fakeness score; (4) the use of shallower network for reducing the computational complexity. Experiments on the DFDC and FakeAVCeleb datasets demonstrate the relevance of the proposed method.
Cite
@article{arxiv.2407.11650,
title = {Statistics-aware Audio-visual Deepfake Detector},
author = {Marcella Astrid and Enjie Ghorbel and Djamila Aouada},
journal= {arXiv preprint arXiv:2407.11650},
year = {2024}
}
Comments
Accepted in ICIP 2024