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Towards robust explanations for deep neural networks

Ann-Kathrin Dombrowski, Christopher J. Anders, Klaus‐Robert Müller, Pan Kessel

2021Pattern Recognition44 citationsDOIOpen Access PDF

Abstract

Explanation methods shed light on the decision process of black-box classifiers such as deep neural networks. But their usefulness can be compromised because they are susceptible to manipulations. With this work, we aim to enhance the resilience of explanations. We develop a unified theoretical framework for deriving bounds on the maximal manipulability of a model. Based on these theoretical insights, we present three different techniques to boost robustness against manipulation: training with weight decay, smoothing activation functions, and minimizing the Hessian of the network. Our experimental results confirm the effectiveness of these approaches.

Topics & Concepts

Robustness (evolution)Deep neural networksComputer scienceArtificial intelligenceSmoothingArtificial neural networkHessian matrixMachine learningBlack boxDeep learningMathematicsApplied mathematicsChemistryBiochemistryComputer visionGeneExplainable Artificial Intelligence (XAI)Adversarial Robustness in Machine LearningMachine Learning and Data Classification