通过噪声注入和去噪检测对抗样本

IF 4.2 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Han Zhang , Xin Zhang , Yuan Sun , Lixia Ji
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引用次数: 0

摘要

深度学习模型极易受到对抗示例的影响,因此检测对抗示例的技术备受关注。然而,目前的方法主要依赖于检测图像特征来识别对抗示例,往往无法解决此类示例的不同类型和强度问题。为了克服这一局限,我们提出了一种基于扰动估计和去噪的新型对抗示例检测方法。我们开发了一种自动编码器来预测样本的潜在对抗扰动,并根据这些预测选择适当大小的噪声来覆盖扰动。随后,我们采用非盲目去噪自编码器来有效去除噪声和残余扰动。通过这种方法,我们可以在消除对抗性扰动的同时保留原始信息,从而在不影响良性样本预测的情况下改变对抗性样本的预测结果。模型处理前后预测结果的不一致性可识别出对抗性示例。我们在 MNIST、CIFAR-10 和 ImageNet 等数据集上的实验表明,我们的方法在准确性上超过了其他先进的检测方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Detecting adversarial samples by noise injection and denoising

Detecting adversarial samples by noise injection and denoising

Deep learning models are highly vulnerable to adversarial examples, leading to significant attention on techniques for detecting them. However, current methods primarily rely on detecting image features for identifying adversarial examples, often failing to address the diverse types and intensities of such examples. We propose a novel adversarial example detection method based on perturbation estimation and denoising to overcome this limitation. We develop an autoencoder to predict the latent adversarial perturbations of samples and select appropriately sized noise based on these predictions to cover the perturbations. Subsequently, we employ a non-blind denoising autoencoder to remove noise and residual perturbations effectively. This approach allows us to eliminate adversarial perturbations while preserving the original information, thus altering the prediction results of adversarial examples without affecting predictions on benign samples. Inconsistencies in predictions before and after processing by the model identify adversarial examples. Our experiments on datasets such as MNIST, CIFAR-10, and ImageNet demonstrate that our method surpasses other advanced detection methods in accuracy.

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来源期刊
Image and Vision Computing
Image and Vision Computing 工程技术-工程:电子与电气
CiteScore
8.50
自引率
8.50%
发文量
143
审稿时长
7.8 months
期刊介绍: Image and Vision Computing has as a primary aim the provision of an effective medium of interchange for the results of high quality theoretical and applied research fundamental to all aspects of image interpretation and computer vision. The journal publishes work that proposes new image interpretation and computer vision methodology or addresses the application of such methods to real world scenes. It seeks to strengthen a deeper understanding in the discipline by encouraging the quantitative comparison and performance evaluation of the proposed methodology. The coverage includes: image interpretation, scene modelling, object recognition and tracking, shape analysis, monitoring and surveillance, active vision and robotic systems, SLAM, biologically-inspired computer vision, motion analysis, stereo vision, document image understanding, character and handwritten text recognition, face and gesture recognition, biometrics, vision-based human-computer interaction, human activity and behavior understanding, data fusion from multiple sensor inputs, image databases.
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