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Understanding Integrated Gradients with SmoothTaylor for Deep Neural Network Attribution

Gary Goh, Sebastian Lapuschkin, Leander Weber, Wojciech Samek, Alexander Binder

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Abstract

Integrated Gradients as an attribution method for deep neural network models offers simple implementability. However, it suffers from noisiness of explanations which affects the ease of interpretability. The SmoothGrad technique is proposed to solve the noisiness issue and smoothen the attribution maps of any gradient-based attribution method. In this paper, we present SmoothTaylor as a novel theoretical concept bridging Integrated Gradients and SmoothGrad, from the Taylor's theorem perspective. We apply the methods to the image classification problem, using the ILSVRC2012 ImageNet object recognition dataset, and a couple of pretrained image models to generate attribution maps. These attribution maps are empirically evaluated using quantitative measures for sensitivity and noise level. We further propose adaptive noising to optimize for the noise scale hyperparameter value. From our experiments, we find that the SmoothTaylor approach together with adaptive noising is able to generate better quality saliency maps with lesser noise and higher sensitivity to the relevant points in the input space as compared to Integrated Gradients.

Topics & Concepts

InterpretabilityComputer scienceHyperparameterNoise (video)Artificial intelligenceArtificial neural networkAttributionPattern recognition (psychology)Sensitivity (control systems)Machine learningData miningImage (mathematics)PsychologyElectronic engineeringSocial psychologyEngineeringAdversarial Robustness in Machine LearningExplainable Artificial Intelligence (XAI)Advanced Neural Network Applications
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