Document Type
Article
Publication Date
6-17-2024
Publication Title
2024 Silicon Valley Cybersecurity Conference (SVCC)
Publisher Name
IEEE
Abstract
Deep Learning (DL) is rapidly maturing to the point that it can be used in safety- and security-crucial applications, such as self-driving vehicles, surveillance, drones, and robots. However, adversarial samples, which are undetectable to the human eye, pose a serious threat that can cause the model to misbehave and compromise the performance of such applications. Addressing the robustness of DL models has become crucial to understanding and defending against adversarial attacks. In this study, we perform comprehensive experiments to examine the effect of adversarial attacks and defenses on various model architectures across well-known datasets. Our research focuses on black-box attacks such as SimBA, HopSkipJump, MGAAttack, and boundary attacks, as well as preprocessor-based defensive mechanisms, including bits squeezing, median smoothing, and JPEG filter. Experimenting with various models, our results demonstrate that the level of noise needed for the attack increases as the number of layers increases. Moreover, the attack success rate decreases as the number of layers increases. This indicates that model complexity and robustness have a significant relationship. Investigating the diversity and robustness relationship, our experiments with diverse models show that having a large number of parameters does not imply higher robustness. Our experiments extend to show the effects of the training dataset on model robustness. Using various datasets such as ImageNet-1000, CIFAR-100, and CIFAR-10 are used to evaluate the black-box attacks. Considering the multiple dimensions of our analysis, e.g., model complexity and training dataset, we examined the behavior of black-box attacks when models apply defenses. Our results show that applying defense strategies can significantly reduce attack effectiveness. This research provides in-depth analysis and insight into the robustness of DL models against various attacks, and defenses.
Recommended Citation
F. Juraev, M. Abuhamad, S. S. Woo, G. K. Thiruvathukal and T. Abuhmed, "The Impact of Model Variations on the Robustness of Deep Learning Models in Adversarial Settings," 2024 Silicon Valley Cybersecurity Conference (SVCC), Seoul, Korea, Republic of, 2024, pp. 1-7, doi: 10.1109/SVCC61185.2024.10637362.
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Copyright Statement
© IEEE, 2024.
Comments
Author Posting © 2024 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. The definitive version was published in 2024 Silicon Valley Cybersecurity Conference (SVCC) (June 2024), https://doi.org/10.1109/SVCC61185.2024.10637364.