Exploring Layerwise Adversarial Robustness Through the Lens of t-SNE
Valentim, Inês, Antunes, Nuno, Lourenço, Nuno
–arXiv.org Artificial Intelligence
Adversarial examples, designed to trick Artificial Neural Networks (ANNs) into producing wrong outputs, highlight vulnerabilities in these models. Exploring these weaknesses is crucial for developing defenses, and so, we propose a method to assess the adversarial robustness of image-classifying ANNs. The t-distributed Stochastic Neighbor Embedding (t-SNE) technique is used for visual inspection, and a metric, which compares the clean and perturbed embeddings, helps pinpoint weak spots in the layers. Analyzing two ANNs on CIFAR-10, one designed by humans and another via NeuroEvolution, we found that differences between clean and perturbed representations emerge early on, in the feature extraction layers, affecting subsequent classification. The findings with our metric are supported by the visual analysis of the t-SNE maps.
arXiv.org Artificial Intelligence
Jun-20-2024
- Country:
- Oceania > Australia
- North America
- United States > New York
- New York County > New York City (0.05)
- Canada > Ontario
- Toronto (0.14)
- United States > New York
- Europe > Portugal
- Genre:
- Research Report > New Finding (0.46)
- Industry:
- Information Technology (0.47)
- Technology: