Litcius/Paper detail

Open-Set Deepfake Detection: A Parameter-Efficient Adaptation Method with Forgery Style Mixture

Chenqi Kong, Anwei Luo, Peijun Bao, Haoliang Li, Renjie Wan, Zengwei Zheng, A. Rocha, Alex C. Kot

2026IEEE Transactions on Circuits and Systems for Video Technology6 citationsDOI

Abstract

Open-set face forgery detection poses significant security threats and presents substantial challenges for existing detection models. These detectors primarily have two limitations: they cannot generalize across unknown forgery domains or inefficiently adapt to new data. To address these issues, we introduce an approach that is both general and parameter-efficient for face forgery detection. Our method builds on the assumption that different forgery source domains exhibit distinct style statistics. Specifically, we design a forgery-style-mixture formulation that augments the diversity of forgery source domains, enhancing the model’s generalizability across unseen domains. In addition, previous methods typically require fully fine-tuning pretrained networks, consuming substantial time and computational resources. Drawing on recent advancements in vision transformers (ViT) for face forgery detection, we develop a parameter-efficient ViT-based detection model that includes lightweight forgery feature extraction modules and enables the model to extract global and local forgery clues simultaneously. We only optimize the inserted lightweight modules during training, maintaining the original ViT structure with its pre-trained weights. This training strategy effectively preserves the informative pre-trained knowledge while flexibly adapting the model to the task of Deepfake detection. Extensive experimental results demonstrate that the designed model achieves state-of-the-art generalizability with significantly reduced trainable parameters, representing an important step toward open-set Deepfake detection in the wild.

Topics & Concepts

Generalizability theoryComputer scienceArtificial intelligenceFace (sociological concept)Feature extractionMachine learningAdaptation (eye)Pattern recognition (psychology)Face detectionRobustness (evolution)Task (project management)Feature (linguistics)Computer visionExploitImage (mathematics)Facial recognition systemDomain adaptationDetectorTask analysisObject detectionImage editingBiometricsGenerative Adversarial Networks and Image SynthesisDigital Media Forensic DetectionDomain Adaptation and Few-Shot Learning