Related papers: Secret-Protected Evolution for Differentially Private Synthetic Text Generation

Secret-Protected Evolution for Differentially Private Synthetic Text Generation

URL: http://arxiv.org/abs/2510.10990v1
Date: Mon, 13 Oct 2025 04:05:42 GMT
Title: Secret-Protected Evolution for Differentially Private Synthetic Text Generation
Authors: Tianze Wang, Zhaoyu Chen, Jian Du, Yingtai Xiao, Linjun Zhang, Qiang Yan,
Abstract summary: Secret-Protected Evolution (SecPE) is a novel framework that extends private evolution with secret-aware protection.<n>We show that SecPE satisfies $(mathrmp, mathrmr)$-secret protection, constituting a relaxation of Gaussian DP that enables tighter utility-privacy trade-offs.<n>Our results highlight that SecPE can unlock more practical and effective privacy-preserving synthetic text generation.
Score: 25.60898496792365
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: Text data has become extremely valuable on large language models (LLMs) and even lead to general artificial intelligence (AGI). A lot of high-quality text in the real world is private and cannot be freely used due to privacy concerns. Therefore, differentially private (DP) synthetic text generation has been proposed, aiming to produce high-utility synthetic data while protecting sensitive information. However, existing DP synthetic text generation imposes uniform guarantees that often overprotect non-sensitive content, resulting in substantial utility loss and computational overhead. Therefore, we propose Secret-Protected Evolution (SecPE), a novel framework that extends private evolution with secret-aware protection. Theoretically, we show that SecPE satisfies $(\mathrm{p}, \mathrm{r})$-secret protection, constituting a relaxation of Gaussian DP that enables tighter utility-privacy trade-offs, while also substantially reducing computational complexity relative to baseline methods. Empirically, across the OpenReview, PubMed, and Yelp benchmarks, SecPE consistently achieves lower Fr\'echet Inception Distance (FID) and higher downstream task accuracy than GDP-based Aug-PE baselines, while requiring less noise to attain the same level of protection. Our results highlight that secret-aware guarantees can unlock more practical and effective privacy-preserving synthetic text generation.

Related papers

How to DP-fy Your Data: A Practical Guide to Generating Synthetic Data With Differential Privacy [52.00934156883483]
Differential Privacy (DP) is a framework for reasoning about and limiting information leakage.<n>Differentially Private Synthetic data refers to synthetic data that preserves the overall trends of source data.
arXiv Detail & Related papers (2025-12-02T21:14:39Z)
TextCrafter: Optimization-Calibrated Noise for Defending Against Text Embedding Inversion [0.13764085113103217]
Text embedding inversion attacks reconstruct original sentences from latent representations, posing severe privacy threats in collaborative inference and edge computing.<n>We propose TextCrafter, an optimization-based adversarial perturbation mechanism that combines RL learned, geometry aware noise injection, user embeddings with cluster priors and PII signal guidance to suppress inversion while preserving task utility.
arXiv Detail & Related papers (2025-09-22T00:51:20Z)
Privacy-Aware In-Context Learning for Large Language Models [12.605629953620495]
Large language models (LLMs) raise privacy concerns due to potential exposure of sensitive information.<n>We introduce a novel private prediction framework for generating high-quality synthetic text with strong privacy guarantees.
arXiv Detail & Related papers (2025-09-17T01:50:32Z)
The Double-edged Sword of LLM-based Data Reconstruction: Understanding and Mitigating Contextual Vulnerability in Word-level Differential Privacy Text Sanitization [53.51921540246166]
We show that Language Large Models (LLMs) can exploit the contextual vulnerability of DP-sanitized texts.<n>Experiments uncover a double-edged sword effect of LLM reconstructions on privacy and utility.<n>We propose recommendations for using data reconstruction as a post-processing step.
arXiv Detail & Related papers (2025-08-26T12:22:45Z)
RL-Finetuned LLMs for Privacy-Preserving Synthetic Rewriting [17.294176570269]
We propose a reinforcement learning framework that fine-tunes a large language model (LLM) using a composite reward function.<n>The privacy reward combines semantic cues with structural patterns derived from a minimum spanning tree (MST) over latent representations.<n> Empirical results show that the proposed method significantly enhances author obfuscation and privacy metrics without degrading semantic quality.
arXiv Detail & Related papers (2025-08-25T04:38:19Z)
Privacy-Aware Decoding: Mitigating Privacy Leakage of Large Language Models in Retrieval-Augmented Generation [26.573578326262307]
Privacy-Aware Decoding (PAD) is a lightweight, inference-time defense that adaptively injects calibrated Gaussian noise into token logits during generation.<n>PAD integrates confidence-based screening to selectively protect high-risk tokens, efficient sensitivity estimation to minimize unnecessary noise, and context-aware noise calibration to balance privacy with generation quality.<n>Our work takes an important step toward mitigating privacy risks in RAG via decoding strategies, paving the way for universal and scalable privacy solutions in sensitive domains.
arXiv Detail & Related papers (2025-08-05T05:22:13Z)
Differentially Private Synthetic Data via Foundation Model APIs 2: Text [56.13240830670327]
A lot of high-quality text data generated in the real world is private and cannot be shared or used freely due to privacy concerns. We propose an augmented PE algorithm, named Aug-PE, that applies to the complex setting of text. Our results demonstrate that Aug-PE produces DP synthetic text that yields competitive utility with the SOTA DP finetuning baselines.
arXiv Detail & Related papers (2024-03-04T05:57:50Z)
InferDPT: Privacy-Preserving Inference for Black-box Large Language Model [66.07752875835506]
InferDPT is the first practical framework for the privacy-preserving Inference of black-box LLMs.<n>RANTEXT is a novel differential privacy mechanism integrated into the perturbation module of InferDPT.
arXiv Detail & Related papers (2023-10-18T18:00:11Z)
Breaking the Communication-Privacy-Accuracy Tradeoff with $f$-Differential Privacy [51.11280118806893]
We consider a federated data analytics problem in which a server coordinates the collaborative data analysis of multiple users with privacy concerns and limited communication capability. We study the local differential privacy guarantees of discrete-valued mechanisms with finite output space through the lens of $f$-differential privacy (DP) More specifically, we advance the existing literature by deriving tight $f$-DP guarantees for a variety of discrete-valued mechanisms.
arXiv Detail & Related papers (2023-02-19T16:58:53Z)
Synthetic Text Generation with Differential Privacy: A Simple and Practical Recipe [32.63295550058343]
We show that a simple and practical recipe in the text domain is effective in generating useful synthetic text with strong privacy protection. Our method produces synthetic text that is competitive in terms of utility with its non-private counterpart.
arXiv Detail & Related papers (2022-10-25T21:21:17Z)
CryptoSPN: Privacy-preserving Sum-Product Network Inference [84.88362774693914]
We present a framework for privacy-preserving inference of sum-product networks (SPNs) CryptoSPN achieves highly efficient and accurate inference in the order of seconds for medium-sized SPNs.
arXiv Detail & Related papers (2020-02-03T14:49:18Z)

This list is automatically generated from the titles and abstracts of the papers in this site.