Implementations for several white-box and black-box attacks.
-
Updated
Aug 25, 2021 - Python
Implementations for several white-box and black-box attacks.
Individual Study in Computer Architecture and Systems Laboratory (CASYS) with Prof.Jaehyuk Huh in 2021 Summer
This study was conducted in collaboration with the University of Prishtina (Kosovo) and the University of Oslo (Norway). This implementation is part of the paper entitled "Attack Analysis of Face Recognition Authentication Systems Using Fast Gradient Sign Method", published in the International Journal of Applied Artificial Intelligence by Taylo…
vanilla training and adversarial training in PyTorch
Adversarial attacks to SRNet
Adversarial attacks on a deep neural network trained on ImageNet
An University Project for the AI4Cybersecurity class.
Adversarial Network Attacks (PGD, pixel, FGSM) Noise on MNIST Images Dataset using Python (Pytorch)
Adversarial attacks on CNN using the FSGM technique.
Adversarial Attacks on Image data
This repository contains the implementation of three adversarial example attacks including FGSM, noise, semantic attack and a defensive distillation approach to defense against the FGSM attack.
Adversarial Sample Generation
Adversarial-Attacks-and-Defence
Learning Adversarial Robustness in Machine Learning both Theory and Practice.
An ASR (Automatic Speech Recognition) adversarial attack repository.
This work is based on enhancing the robustness of targeted classifier models against adversarial attacks. To achieve this, a convolutional autoencoder-based approach is employed that effectively counters adversarial perturbations introduced to the input images.
Developed robust image classification models to prevent the effect of adversarial attacks
Notebook to implement different approaches for Adversarial Attack using Python and PyTorch.
The Fast Gradient Sign Method (FGSM) combines a white box approach with a misclassification goal. It tricks a neural network model into making wrong predictions. We use this technique to anonymize images.
This project evaluates the robustness of image classification models against adversarial attacks using two key metrics: Adversarial Distance and CLEVER. The study employs variants of the WideResNet model, including a standard and a corruption-trained robust model, trained on the CIFAR-10 dataset. Key insights reveal that the CLEVER Score serves as
Add a description, image, and links to the fgsm-attack topic page so that developers can more easily learn about it.
To associate your repository with the fgsm-attack topic, visit your repo's landing page and select "manage topics."