InvisMark: Invisible and Robust Watermarking for AI-generated Image Provenance
The proliferation of AI-generated images has intensified the need for robust content authentication methods. We present InvisMark, a novel watermarking technique designed for high-resolution AI-generated images. Our approach leverages advanced neural network architectures and training strategies to...
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| creator | Xu, Rui Hu, Mengya Lei, Deren Li, Yaxi Lowe, David Gorevski, Alex Wang, Mingyu Ching, Emily Deng, Alex |
| description | The proliferation of AI-generated images has intensified the need for robust
content authentication methods. We present InvisMark, a novel watermarking
technique designed for high-resolution AI-generated images. Our approach
leverages advanced neural network architectures and training strategies to
embed imperceptible yet highly robust watermarks. InvisMark achieves
state-of-the-art performance in imperceptibility (PSNR$\sim$51, SSIM $\sim$
0.998) while maintaining over 97\% bit accuracy across various image
manipulations. Notably, we demonstrate the successful encoding of 256-bit
watermarks, significantly expanding payload capacity while preserving image
quality. This enables the embedding of UUIDs with error correction codes,
achieving near-perfect decoding success rates even under challenging image
distortions. We also address potential vulnerabilities against advanced attacks
and propose mitigation strategies. By combining high imperceptibility, extended
payload capacity, and resilience to manipulations, InvisMark provides a robust
foundation for ensuring media provenance in an era of increasingly
sophisticated AI-generated content. Source code of this paper is available at:
https://github.com/microsoft/InvisMark. |
| doi_str_mv | 10.48550/arxiv.2411.07795 |
| format | Article |
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content authentication methods. We present InvisMark, a novel watermarking
technique designed for high-resolution AI-generated images. Our approach
leverages advanced neural network architectures and training strategies to
embed imperceptible yet highly robust watermarks. InvisMark achieves
state-of-the-art performance in imperceptibility (PSNR$\sim$51, SSIM $\sim$
0.998) while maintaining over 97\% bit accuracy across various image
manipulations. Notably, we demonstrate the successful encoding of 256-bit
watermarks, significantly expanding payload capacity while preserving image
quality. This enables the embedding of UUIDs with error correction codes,
achieving near-perfect decoding success rates even under challenging image
distortions. We also address potential vulnerabilities against advanced attacks
and propose mitigation strategies. By combining high imperceptibility, extended
payload capacity, and resilience to manipulations, InvisMark provides a robust
foundation for ensuring media provenance in an era of increasingly
sophisticated AI-generated content. Source code of this paper is available at:
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content authentication methods. We present InvisMark, a novel watermarking
technique designed for high-resolution AI-generated images. Our approach
leverages advanced neural network architectures and training strategies to
embed imperceptible yet highly robust watermarks. InvisMark achieves
state-of-the-art performance in imperceptibility (PSNR$\sim$51, SSIM $\sim$
0.998) while maintaining over 97\% bit accuracy across various image
manipulations. Notably, we demonstrate the successful encoding of 256-bit
watermarks, significantly expanding payload capacity while preserving image
quality. This enables the embedding of UUIDs with error correction codes,
achieving near-perfect decoding success rates even under challenging image
distortions. We also address potential vulnerabilities against advanced attacks
and propose mitigation strategies. By combining high imperceptibility, extended
payload capacity, and resilience to manipulations, InvisMark provides a robust
foundation for ensuring media provenance in an era of increasingly
sophisticated AI-generated content. Source code of this paper is available at:
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content authentication methods. We present InvisMark, a novel watermarking
technique designed for high-resolution AI-generated images. Our approach
leverages advanced neural network architectures and training strategies to
embed imperceptible yet highly robust watermarks. InvisMark achieves
state-of-the-art performance in imperceptibility (PSNR$\sim$51, SSIM $\sim$
0.998) while maintaining over 97\% bit accuracy across various image
manipulations. Notably, we demonstrate the successful encoding of 256-bit
watermarks, significantly expanding payload capacity while preserving image
quality. This enables the embedding of UUIDs with error correction codes,
achieving near-perfect decoding success rates even under challenging image
distortions. We also address potential vulnerabilities against advanced attacks
and propose mitigation strategies. By combining high imperceptibility, extended
payload capacity, and resilience to manipulations, InvisMark provides a robust
foundation for ensuring media provenance in an era of increasingly
sophisticated AI-generated content. Source code of this paper is available at:
https://github.com/microsoft/InvisMark.</abstract><doi>10.48550/arxiv.2411.07795</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Artificial Intelligence Computer Science - Cryptography and Security |
| title | InvisMark: Invisible and Robust Watermarking for AI-generated Image Provenance |
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