Background
Artificial intelligence (AI) image generation has opened up endless possibilities for creativity, allowing architects, designers, and artists to produce visual models rapidly. However, this technology is responsible for creating deepfakes, which are highly realistic but fake images and videos. Deepfakes can be used to spread misinformation, manipulate public opinion, and destroy reputations. It’s nearly impossible for most people to distinguish between real and deep faked images. While AI offers immense potential in image generation, there is a need to address ongoing ethical challenges with privacy protection. Having tools to identify deep fakes is essential to preserve trust and ensure the technology is used ethically.
Invention Description
Researchers at Arizona State University have developed a novel method for identifying AI generated images, which are typically indistinguishable from real ones to the human eye. Their method leverages latent semantic dimensions as fingerprints, enabling the attribution of generative models with minimal impact on image quality. This enables regulators to maintain a database of user specific keys, allowing them to identify the users responsible for malicious generation attempts. The solution offers a superior balance between attribution accuracy and generation quality, while using minimal computational resources, making it highly scalable.
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Related Publication: Attributing Image Generative Models Using Latent Fingerprints