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Uncertainty-aware Prediction Validator in Deep Learning Models for Cyber-physical System Data

Ferhat Özgür Çatak, Tao Yue, Shaukat Ali

2022ACM Transactions on Software Engineering and Methodology28 citationsDOIOpen Access PDF

Abstract

The use of Deep learning in Cyber-Physical Systems (CPSs) is gaining popularity due to its ability to bring intelligence to CPS behaviors. However, both CPSs and deep learning have inherent uncertainty. Such uncertainty, if not handled adequately, can lead to unsafe CPS behavior. The first step toward addressing such uncertainty in deep learning is to quantify uncertainty. Hence, we propose a novel method called NIRVANA (uNcertaInty pRediction ValidAtor iN Ai) for prediction validation based on uncertainty metrics. To this end, we first employ prediction-time Dropout-based Neural Networks to quantify uncertainty in deep learning models applied to CPS data. Second, such quantified uncertainty is taken as the input to predict wrong labels using a support vector machine, with the aim of building a highly discriminating prediction validator model with uncertainty values. In addition, we investigated the relationship between uncertainty quantification and prediction performance and conducted experiments to obtain optimal dropout ratios. We conducted all the experiments with four real-world CPS datasets. Results show that uncertainty quantification is negatively correlated to prediction performance of a deep learning model of CPS data. Also, our dropout ratio adjustment approach is effective in reducing uncertainty of correct predictions while increasing uncertainty of wrong predictions.

Topics & Concepts

ValidatorComputer scienceArtificial intelligenceDropout (neural networks)Deep learningMachine learningUncertainty quantificationArtificial neural networkUncertainty analysisMeasurement uncertaintyData miningPopularitySimulationStatisticsMathematicsPsychologySocial psychologyWorld Wide WebAdversarial Robustness in Machine LearningAnomaly Detection Techniques and ApplicationsFault Detection and Control Systems
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