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Explaining Deep Neural Network Models with Adversarial Gradient Integration

Deng Pan, Xin Li, Dongxiao Zhu

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Abstract

Deep neural networks (DNNs) have became one of the most high performing tools in a broad range of machine learning areas. However, the multilayer non-linearity of the network architectures prevent us from gaining a better understanding of the models’ predictions. Gradient based attribution methods (e.g., Integrated Gradient (IG)) that decipher input features’ contribution to the prediction task have been shown to be highly effective yet requiring a reference input as the anchor for explaining model’s output. The performance of DNN model interpretation can be quite inconsistent with regard to the choice of references. Here we propose an Adversarial Gradient Integration (AGI) method that integrates the gradients from adversarial examples to the target example along the curve of steepest ascent to calculate the resulting contributions from all input features. Our method doesn’t rely on the choice of references, hence can avoid the ambiguity and inconsistency sourced from the reference selection. We demonstrate the performance of our AGI method and compare with competing methods in explaining image classification results. Code is available from https://github.com/pd90506/AGI.

Topics & Concepts

Computer scienceArtificial intelligenceAmbiguityAdversarial systemRange (aeronautics)Artificial neural networkTask (project management)Selection (genetic algorithm)Code (set theory)Deep learningMachine learningDeep neural networksDECIPHERGradient descentModel selectionBiologyComposite materialEconomicsMaterials scienceProgramming languageGeneticsSet (abstract data type)ManagementAdversarial Robustness in Machine LearningExplainable Artificial Intelligence (XAI)Machine Learning and Data Classification
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