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Autori principali: Li, Zheng, Xie, Liangbin, Zhou, Jiantao, Wang, Xintao, Wu, Haiwei, Tian, Jinyu
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.05595
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author Li, Zheng
Xie, Liangbin
Zhou, Jiantao
Wang, Xintao
Wu, Haiwei
Tian, Jinyu
author_facet Li, Zheng
Xie, Liangbin
Zhou, Jiantao
Wang, Xintao
Wu, Haiwei
Tian, Jinyu
contents Although diffusion-based techniques have shown remarkable success in image generation and editing tasks, their abuse can lead to severe negative social impacts. Recently, some works have been proposed to provide defense against the abuse of diffusion-based methods. However, their protection may be limited in specific scenarios by manually defined prompts or the stable diffusion (SD) version. Furthermore, these methods solely focus on tuning methods, overlooking editing methods that could also pose a significant threat. In this work, we propose Anti-Diffusion, a privacy protection system designed for general diffusion-based methods, applicable to both tuning and editing techniques. To mitigate the limitations of manually defined prompts on defense performance, we introduce the prompt tuning (PT) strategy that enables precise expression of original images. To provide defense against both tuning and editing methods, we propose the semantic disturbance loss (SDL) to disrupt the semantic information of protected images. Given the limited research on the defense against editing methods, we develop a dataset named Defense-Edit to assess the defense performance of various methods. Experiments demonstrate that our Anti-Diffusion achieves superior defense performance across a wide range of diffusion-based techniques in different scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2503_05595
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publishDate 2025
record_format arxiv
spellingShingle Anti-Diffusion: Preventing Abuse of Modifications of Diffusion-Based Models
Li, Zheng
Xie, Liangbin
Zhou, Jiantao
Wang, Xintao
Wu, Haiwei
Tian, Jinyu
Computer Vision and Pattern Recognition
Although diffusion-based techniques have shown remarkable success in image generation and editing tasks, their abuse can lead to severe negative social impacts. Recently, some works have been proposed to provide defense against the abuse of diffusion-based methods. However, their protection may be limited in specific scenarios by manually defined prompts or the stable diffusion (SD) version. Furthermore, these methods solely focus on tuning methods, overlooking editing methods that could also pose a significant threat. In this work, we propose Anti-Diffusion, a privacy protection system designed for general diffusion-based methods, applicable to both tuning and editing techniques. To mitigate the limitations of manually defined prompts on defense performance, we introduce the prompt tuning (PT) strategy that enables precise expression of original images. To provide defense against both tuning and editing methods, we propose the semantic disturbance loss (SDL) to disrupt the semantic information of protected images. Given the limited research on the defense against editing methods, we develop a dataset named Defense-Edit to assess the defense performance of various methods. Experiments demonstrate that our Anti-Diffusion achieves superior defense performance across a wide range of diffusion-based techniques in different scenarios.
title Anti-Diffusion: Preventing Abuse of Modifications of Diffusion-Based Models
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2503.05595