3 research outputs found
A Full-Image Full-Resolution End-to-End-Trainable CNN Framework for Image Forgery Detection
Due to limited computational and memory resources, current deep learning
models accept only rather small images in input, calling for preliminary image
resizing. This is not a problem for high-level vision problems, where
discriminative features are barely affected by resizing. On the contrary, in
image forensics, resizing tends to destroy precious high-frequency details,
impacting heavily on performance. One can avoid resizing by means of patch-wise
processing, at the cost of renouncing whole-image analysis. In this work, we
propose a CNN-based image forgery detection framework which makes decisions
based on full-resolution information gathered from the whole image. Thanks to
gradient checkpointing, the framework is trainable end-to-end with limited
memory resources and weak (image-level) supervision, allowing for the joint
optimization of all parameters. Experiments on widespread image forensics
datasets prove the good performance of the proposed approach, which largely
outperforms all baselines and all reference methods.Comment: 13 pages, 12 figures, journa
Recent Advances in Digital Image and Video Forensics, Anti-forensics and Counter Anti-forensics
Image and video forensics have recently gained increasing attention due to
the proliferation of manipulated images and videos, especially on social media
platforms, such as Twitter and Instagram, which spread disinformation and fake
news. This survey explores image and video identification and forgery detection
covering both manipulated digital media and generative media. However, media
forgery detection techniques are susceptible to anti-forensics; on the other
hand, such anti-forensics techniques can themselves be detected. We therefore
further cover both anti-forensics and counter anti-forensics techniques in
image and video. Finally, we conclude this survey by highlighting some open
problems in this domain