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Main Authors: Sun, Ruiqing, Yao, Xingshan, Wu, Zhijing, Lan, Tian, Cui, Chenhao, Zhao, Huiyang, Shi, Jialing, Yang, Chen, Mao, Xianling
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.23688
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author Sun, Ruiqing
Yao, Xingshan
Wu, Zhijing
Lan, Tian
Cui, Chenhao
Zhao, Huiyang
Shi, Jialing
Yang, Chen
Mao, Xianling
author_facet Sun, Ruiqing
Yao, Xingshan
Wu, Zhijing
Lan, Tian
Cui, Chenhao
Zhao, Huiyang
Shi, Jialing
Yang, Chen
Mao, Xianling
contents Proactive defense methods protect portrait images from unauthorized editing or talking face generation (TFG) by introducing pixel-level protective perturbations, and have already attracted increasing attention for privacy protection. In real-world scenarios, images inevitably undergo various transformations during cross-device display and dissemination--such as scale transformations and color compression--that directly alter pixel values. However, it remains unclear whether such pixel-level modifications affect the effectiveness of existing proactive defense methods that rely on pixel-level perturbations. To solve this problem, we conduct a systematic evaluation of representative proactive defenses under image transformation. The evaluated methods are selected to span different generation architectures such as diffusion and GAN-based models, as well as defense scopes covering both portrait and natural images, and are assessed using both qualitative and quantitative metrics for subjective and objective comparison. Experimental results indicate that defense methods based on pixel-level perturbations struggle to withstand common image transformations, posing a risk of defense failure in real-world applications. To further highlight this risk, we propose a simple yet effective purification framework by leveraging the vulnerabilities induced by real-world image transformations. Experimental results demonstrate that the proposed method can efficiently remove protective perturbations with low computational cost, highlighting previously overlooked risks to the research community.
format Preprint
id arxiv_https___arxiv_org_abs_2604_23688
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Do Protective Perturbations Really Protect Portrait Privacy under Real-world Image Transformations?
Sun, Ruiqing
Yao, Xingshan
Wu, Zhijing
Lan, Tian
Cui, Chenhao
Zhao, Huiyang
Shi, Jialing
Yang, Chen
Mao, Xianling
Computer Vision and Pattern Recognition
Proactive defense methods protect portrait images from unauthorized editing or talking face generation (TFG) by introducing pixel-level protective perturbations, and have already attracted increasing attention for privacy protection. In real-world scenarios, images inevitably undergo various transformations during cross-device display and dissemination--such as scale transformations and color compression--that directly alter pixel values. However, it remains unclear whether such pixel-level modifications affect the effectiveness of existing proactive defense methods that rely on pixel-level perturbations. To solve this problem, we conduct a systematic evaluation of representative proactive defenses under image transformation. The evaluated methods are selected to span different generation architectures such as diffusion and GAN-based models, as well as defense scopes covering both portrait and natural images, and are assessed using both qualitative and quantitative metrics for subjective and objective comparison. Experimental results indicate that defense methods based on pixel-level perturbations struggle to withstand common image transformations, posing a risk of defense failure in real-world applications. To further highlight this risk, we propose a simple yet effective purification framework by leveraging the vulnerabilities induced by real-world image transformations. Experimental results demonstrate that the proposed method can efficiently remove protective perturbations with low computational cost, highlighting previously overlooked risks to the research community.
title Do Protective Perturbations Really Protect Portrait Privacy under Real-world Image Transformations?
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2604.23688