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Adversarial Robustness Via Fisher-Rao Regularization

Marine Picot, Francisco Messina, Malik Boudiaf, Fabrice Labeau, Ismail Ben Ayed, Pablo Piantanida

2022IEEE Transactions on Pattern Analysis and Machine Intelligence26 citationsDOIOpen Access PDF

Abstract

Adversarial robustness has become a topic of growing interest in machine learning since it was observed that neural networks tend to be brittle. We propose an information-geometric formulation of adversarial defense and introduce Fire, a new Fisher-Rao regularization for the categorical cross-entropy loss, which is based on the geodesic distance between the softmax outputs corresponding to natural and perturbed input features. Based on the information-geometric properties of the class of softmax distributions, we derive an explicit characterization of the Fisher-Rao Distance (FRD) for the binary and multiclass cases, and draw some interesting properties as well as connections with standard regularization metrics. Furthermore, we verify on a simple linear and Gaussian model, that all Pareto-optimal points in the accuracy-robustness region can be reached by Fire while other state-of-the-art methods fail. Empirically, we evaluate the performance of various classifiers trained with the proposed loss on standard datasets, showing up to a simultaneous 1% of improvement in terms of clean and robust performances while reducing the training time by 20% over the best-performing methods.

Topics & Concepts

Softmax functionRobustness (evolution)Computer scienceArtificial intelligenceRegularization (linguistics)GeodesicCategorical variableEntropy (arrow of time)GaussianBinary numberPattern recognition (psychology)AlgorithmMathematicsMachine learningArtificial neural networkBiochemistryGenePhysicsMathematical analysisChemistryArithmeticQuantum mechanicsAdversarial Robustness in Machine LearningAnomaly Detection Techniques and ApplicationsIntegrated Circuits and Semiconductor Failure Analysis
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