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Related Experiment Video

Updated: Mar 8, 2026

Scalable Stamp Printing and Fabrication of Hemiwicking Surfaces
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Deep Robust Reversible Watermarking.

Jiale Chen, Wei Wang, Chongyang Shi

    IEEE Transactions on Pattern Analysis and Machine Intelligence
    |March 6, 2026
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    Summary
    This summary is machine-generated.

    This study introduces Deep Robust Reversible Watermarking (DRRW), a novel deep learning approach that overcomes limitations of traditional methods. DRRW offers improved robustness and efficiency for embedding and recovering watermarks in images.

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    Area of Science:

    • Computer Science
    • Information Security
    • Artificial Intelligence

    Background:

    • Existing Robust Reversible Watermarking (RRW) methods are often complex, computationally expensive, and lack robustness.
    • Non-deep learning approaches require task-specific designs for different image distortions.

    Purpose of the Study:

    • To propose a novel deep learning-based scheme for Robust Reversible Watermarking (DRRW).
    • To enhance robustness, reduce computational costs, and improve practical applicability of RRW.

    Main Methods:

    • Introduced an Integer Invertible Watermark Network (iIWN) for invertible mapping of integer data distributions.
    • Employed an encoder-noise layer-decoder framework for adaptive robustness against various distortions via end-to-end training.
    • Utilized arithmetic coding for efficient bitstream compression and reversible data hiding, alongside an overflow penalty loss and adaptive weight adjustment.

    Main Results:

    • Achieved adaptive robustness against diverse distortions without task-specific designs.
    • Significantly reduced pixel overflow, improving stego image quality and robustness.
    • Demonstrated improved training stability and performance through an adaptive weight adjustment strategy.

    Conclusions:

    • DRRW effectively addresses key challenges in current RRW methods.
    • The proposed scheme significantly advances the practical deployment of robust and reversible watermarking.