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Sensor drift compensation for gas mixture classification in batch experiments

YongKyung Oh, YongKyung Oh, Juhui Lee, Sungil Kim

2023Quality and Reliability Engineering International10 citationsDOI

Abstract

Abstract Sensor drift in batch experiments is a well‐known problem in mixed gas classification. In batch experiments, gas sensors can be easily affected by environmental covariates that hinder mixed gas classification. To address this problem, we propose a novel end‐to‐end deep learning model comprising a drift‐compensation module and classification module. Utilizing the nonlinear relationship between sensor readings and environmental covariates, the drift‐compensation module corrects the drifted sensor readings in batch experiments by minimizing a scatteredness‐based fitness function. The corrected values are then fed into the classification module. To train the proposed model, which involves optimizing two different objectives simultaneously, the hypernetwork‐based optimization approach with the stochastic gradient descent is employed. We validated the effectiveness of the proposed method for mixed gas classification using synthetic and real gas mixture data collected from the UCI machine learning repository.

Topics & Concepts

Compensation (psychology)Computer scienceConcept driftArtificial intelligenceGradient descentFunction (biology)Nonlinear systemData miningMachine learningPattern recognition (psychology)Artificial neural networkData stream miningPhysicsPsychoanalysisEvolutionary biologyQuantum mechanicsPsychologyBiologyAdvanced Chemical Sensor TechnologiesAir Quality Monitoring and ForecastingGas Sensing Nanomaterials and Sensors
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