Invisible Watermarks: Attacks and Robustness
This work addresses the challenge of combating misinformation by enhancing watermarking techniques for AI-generated images, but it is incremental as it builds on existing methods with specific improvements.
The paper tackles the problem of robust detection of AI-generated images by investigating invisible watermarking methods, introducing a custom watermark remover network and localized blurring attacks to improve robustness and minimize image degradation, with results showing slight performance improvements and significantly less degradation compared to baselines.
As Generative AI continues to become more accessible, the case for robust detection of generated images in order to combat misinformation is stronger than ever. Invisible watermarking methods act as identifiers of generated content, embedding image- and latent-space messages that are robust to many forms of perturbations. The majority of current research investigates full-image attacks against images with a single watermarking method applied. We introduce novel improvements to watermarking robustness as well as minimizing degradation on image quality during attack. Firstly, we examine the application of both image-space and latent-space watermarking methods on a single image, where we propose a custom watermark remover network which preserves one of the watermarking modalities while completely removing the other during decoding. Then, we investigate localized blurring attacks (LBA) on watermarked images based on the GradCAM heatmap acquired from the watermark decoder in order to reduce the amount of degradation to the target image. Our evaluation suggests that 1) implementing the watermark remover model to preserve one of the watermark modalities when decoding the other modality slightly improves on the baseline performance, and that 2) LBA degrades the image significantly less compared to uniform blurring of the entire image. Code is available at: https://github.com/tomputer-g/IDL_WAR