Autonomous vehicles are gradually occupying the streets and are expected to become ubiquitous in the near future. However, recent incidents involving these vehicles have raised serious concerns about their safety, particularly regarding the reliability of their onboard machine learning systems. In this paper, we expose a critical yet underexplored vulnerability—misclassifying street signs as traffic lights—by conducting a targeted white-box adversarial attack. To the best of our knowledge, this specific vulnerability has not been addressed in the existing literature. We craft adversarial examples using the Fast Gradient Sign Method (FGSM) to generate minimal perturbations that can deceive a state-of-the-art image classification model, Inception-V3, trained on the ImageNet dataset. We also introduce a custom dataset consisting of real-world street sign and traffic light images to test the attack under more domain-specific conditions. Our evaluation metrics include attack success rate, Structural Similarity Index (SSIM), and L2 distance, with our method achieving a 100% success rate in misclassification. These results highlight the pressing need to design robust defenses against adversarial attacks in safety-critical systems. We further discuss technical challenges, potential defenses such as adversarial training and obfuscated gradients, and directions for future research to enhance the resilience of deep learning systems in autonomous vehicles.
Anik et al. (Fri,) studied this question.
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