Adaptive and Robust Watermark for Generative Tabular Data
Abstract
In recent years, watermarking generative tabular data has become a prominent framework to protect against the misuse of synthetic data. However, while most prior work in watermarking methods for tabular data demonstrate a wide variety of desirable properties (e.g., high fidelity, detectability, robustness), the findings often emphasize empirical guarantees against common oblivious and adversarial attacks. In this paper, we study a flexible and robust watermarking algorithm for generative tabular data. Specifically, we demonstrate theoretical guarantees on the performance of the algorithm on metrics like fidelity, detectability, robustness, and hardness of decoding. The proof techniques introduced in this work may be of independent interest and may find applicability in other areas of machine learning. Finally, we validate our theoretical findings on synthetic and real-world tabular datasets.
Cite
@article{arxiv.2409.14700,
title = {Adaptive and Robust Watermark for Generative Tabular Data},
author = {Dung Daniel Ngo and Archan Ray and Akshay Seshadri and Daniel Scott and Saheed Obitayo and Niraj Kumar and Vamsi K. Potluru and Marco Pistoia and Manuela Veloso},
journal= {arXiv preprint arXiv:2409.14700},
year = {2025}
}
Comments
12 pages of main body, 5 figures, 8 tables