Litcius/Paper detail

Glitch in the matrix: A large scale benchmark for content driven audio–visual forgery detection and localization

Zhixi Cai, Shreya Ghosh, Abhinav Dhall, Tom Gedeon, Kalin Stefanov, Munawar Hayat

2023Computer Vision and Image Understanding48 citationsDOIOpen Access PDF

Abstract

Most deepfake detection methods focus on detecting spatial and/or spatio-temporal changes in facial attributes and are centered around the binary classification task of detecting whether a video is real or fake. This is because available benchmark datasets contain mostly visual-only modifications present in the entirety of the video. However, a sophisticated deepfake may include small segments of audio or audio-visual manipulations that can completely change the meaning of the video content. To addresses this gap, we propose and benchmark a new dataset, Localized Audio Visual DeepFake (LAV-DF), consisting of strategic content-driven audio, visual and audio-visual manipulations. The proposed baseline method, Boundary Aware Temporal Forgery Detection (BA-TFD), is a 3D Convolutional Neural Network-based architecture which effectively captures multimodal manipulations. We further improve (i.e. BA-TFD+) the baseline method by replacing the backbone with a Multiscale Vision Transformer and guide the training process with contrastive, frame classification, boundary matching and multimodal boundary matching loss functions. The quantitative analysis demonstrates the superiority of BA-TFD+ on temporal forgery localization and deepfake detection tasks using several benchmark datasets including our newly proposed dataset. The dataset, models and code are available at https://github.com/ControlNet/LAV-DF.

Topics & Concepts

Computer scienceBenchmark (surveying)Artificial intelligenceConvolutional neural networkPattern recognition (psychology)Audio visualCode (set theory)Deep learningGeographySet (abstract data type)GeodesyMultimediaProgramming languageDigital Media Forensic DetectionGenerative Adversarial Networks and Image SynthesisAdvanced Image Processing Techniques