FakeDiffer: Distributional Disparity Learning on Differentiated Reconstruction for Face Forgery Detection
DOI:
https://doi.org/10.1609/aaai.v39i7.32809Abstract
Existing face forgery detection methods achieve promising performance when training and testing forgery data are from identical manipulation types, while they fail to generalize well to unseen samples. In this paper, we experimentally investigate and find that the poor generalization of the methods mainly arises from their overfitting on the known fake patterns. Excessively focused on seen fakes, those detectors fail to effectively learn image-intrinsic information and the distributional disparity between real and fake images. Then, to address this issue, we redefine fake learning as real-fake distributional disparity learning. We propose a novel deepfake detection framework learning distributional disparity based on the differentiated reconstruction on real and fake images for improved generalization. Specifically, distributional disparity learning on differentiated reconstruction of the real and fake images, enforces the model to learn image-invariant intrinsic representations. The reconstruction on real and fake images forces the decoders to learn the distribution of real and fake images, respectively. Moreover, to avoid the influence from the specificalization of the known fake patterns, we further propose the information interaction learning on the encoded intrinsic information and the pixel disparity between the input image and its reconstruction to distinguish face forgeries that are even unknown. Extensive experiments on large-scale benchmark datasets demonstrated the effectiveness of addressing the overfitting issue of the classification network, and verified the superior performance of our method.
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Published
2025-04-11
How to Cite
Wang, B., Zhang, Z., Zhao, S., Ye, X., Zhang, H., & Wang, M. (2025). FakeDiffer: Distributional Disparity Learning on Differentiated Reconstruction for Face Forgery Detection. Proceedings of the AAAI Conference on Artificial Intelligence, 39(7), 7518-7526. https://doi.org/10.1609/aaai.v39i7.32809
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Section
AAAI Technical Track on Computer Vision VI
