Fei-Yu Liao scite author profile

Deep neural networks are vulnerable to adversarial examples, which poses security concerns on these algorithms due to the potentially severe consequences. Adversarial attacks serve as an important surrogate to evaluate the robustness of deep learning models before they are deployed. However, most of existing adversarial attacks can only fool a black-box model with a low success rate. To address this issue, we propose a broad class of momentum-based iterative algorithms to boost adversarial attacks. By integrating the momentum term into the iterative process for attacks, our methods can stabilize update directions and escape from poor local maxima during the iterations, resulting in more transferable adversarial examples. To further improve the success rates for black-box attacks, we apply momentum iterative algorithms to an ensemble of models, and show that the adversarially trained models with a strong defense ability are also vulnerable to our black-box attacks. We hope that the proposed methods will serve as a benchmark for evaluating the robustness of various deep models and defense methods. With this method, we won the first places in NIPS 2017 Non-targeted Adversarial Attack and Targeted Adversarial Attack competitions. * Corresponding author. Alps: 94.39%Dog: 99.99%Puffer: 97.99% Crab: 100.00%

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Defense Against Adversarial Attacks Using High-Level Representation Guided Denoiser

Liao

et al. 2018

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Neural networks are vulnerable to adversarial examples, which poses a threat to their application in security sensitive systems. We propose high-level representation guided denoiser (HGD) as a defense for image classification. Standard denoiser suffers from the error amplification effect, in which small residual adversarial noise is progressively amplified and leads to wrong classifications. HGD overcomes this problem by using a loss function defined as the difference between the target model's outputs activated by the clean image and denoised image. Compared with ensemble adversarial training which is the state-of-the-art defending method on large images, HGD has three advantages. First, with HGD as a defense, the target model is more robust to either white-box or black-box adversarial attacks. Second, HGD can be trained on a small subset of the images and generalizes well to other images and unseen classes. Third, HGD can be transferred to defend models other than the one guiding it. In NIPS competition on defense against adversarial attacks, our HGD solution won the first place and outperformed other models by a large margin.

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Evaluate the Malignancy of Pulmonary Nodules Using the 3-D Deep Leaky Noisy-OR Network

Liao

Liang

et al. 2019

IEEE Trans. Neural Netw. Learning Syst.

402

317

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Adversarial Attacks and Defences Competition

et al. 2018

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Nonlinear analysis of concrete-filled square stainless steel stub columns under axial compression

Tao

Liao

et al. 2011

Journal of Constructional Steel Research

226

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Fei-Yu Liao

Boosting Adversarial Attacks with Momentum

Defense Against Adversarial Attacks Using High-Level Representation Guided Denoiser

Evaluate the Malignancy of Pulmonary Nodules Using the 3-D Deep Leaky Noisy-OR Network

Adversarial Attacks and Defences Competition

Nonlinear analysis of concrete-filled square stainless steel stub columns under axial compression

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