François Menet scite author profile

Deep learning models are vulnerable to adversarial examples which are input samples modified in order to maximize the error on the system. We introduce Spartan Networks, resistant deep neural networks that do not require input preprocessing nor adversarial training. These networks have an adversarial layer designed to discard some information of the network, thus forcing the system to focus on relevant input. This is done using a new activation function to discard data. The added layer trains the neural network to filter-out usually-irrelevant parts of its input. Our performance evaluation shows that Spartan Networks have a slightly lower precision but report a higher robustness under attack when compared to unprotected models. Results of this study of Adversarial AI as a new attack vector are based on tests conducted on the MNIST dataset. KEYWORDSArtificial Intelligence, Cybersecurity, Adversarial AI Potentially any deep learning model can be vulnerable to this kind of attack, which is hard to detect, prevent, and whose impact will only grow in the upcoming years.

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Spartan Networks

Menet

Berthier

Gagnon

et al. 2018

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Spartan Networks: Self-Feature-Squeezing Neural Networks for increased robustness in adversarial settings

Menet¹,

Berthier²,

Fernandez³

et al. 2018

Preprint

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François Menet

Survey of publicly available reports on advanced persistent threat actors

Spartan Networks: Self-feature-squeezing neural networks for increased robustness in adversarial settings

Spartan Networks

Spartan Networks: Self-Feature-Squeezing Neural Networks for increased robustness in adversarial settings

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