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Misclassification Risk and Uncertainty Quantification in Deep Classifiers

Murat Şensoy, Maryam Saleki, Simon Julier, Reyhan Aydoğan, John E. Reid

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Abstract

In this paper, we propose risk-calibrated evidential deep classifiers to reduce the costs associated with classification errors. We use two main approaches. The first is to develop methods to quantify the uncertainty of a classifier's predictions and reduce the likelihood of acting on erroneous predictions. The second is a novel way to train the classifier such that erroneous classifications are biased towards less risky categories. We combine these two approaches in a principled way. While doing this, we extend evidential deep learning with pignistic probabilities, which are used to quantify uncertainty of classification predictions and model rational decision making under uncertainty.We evaluate the performance of our approach on several image classification tasks. We demonstrate that our approach allows to (i) incorporate misclassification cost while training deep classifiers, (ii) accurately quantify the uncertainty of classification predictions, and (iii) simultaneously learn how to make classification decisions to minimize expected cost of classification errors.

Topics & Concepts

Artificial intelligenceComputer scienceClassifier (UML)Machine learningUncertainty quantificationContextual image classificationMeasurement uncertaintyDeep learningEvidential reasoning approachPattern recognition (psychology)Decision support systemImage (mathematics)StatisticsMathematicsBusiness decision mappingAdversarial Robustness in Machine LearningExplainable Artificial Intelligence (XAI)Anomaly Detection Techniques and Applications