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Data Driven Performance Prediction in Steel Making

Fernando Boto, Maialen Murua, Teresa Gutierrez, Sara Casado, Ana Carrillo, Asier Arteaga

2022Metals25 citationsDOIOpen Access PDF

Abstract

This work presents three data-driven models based on process data, to estimate different indicators related to process performance in a steel production process. The generated models allow the optimization of the process parameters to achieve optimal performance and quality levels. A new approach based on ensembles has been developed with feature selection methods and four state-of-the-art regression approximations (random forest, gradient boosting, xgboost and neural networks). The results show that the proposed approach makes the prediction more stable reducing the variance for all cases, even in one case, slightly reducing the bias. Furthermore, from the four machine learning paradigms presented, random forest is the one with the best results in a quantitative way, obtaining a coefficient of determination of 0.98 as a maximum, depending on the target sub-process.

Topics & Concepts

Random forestBoosting (machine learning)Gradient boostingProcess (computing)Artificial neural networkComputer scienceFeature selectionVariance (accounting)Machine learningArtificial intelligenceRegressionFeature (linguistics)Mean squared prediction errorData miningMathematicsStatisticsBusinessPhilosophyAccountingLinguisticsOperating systemMineral Processing and GrindingMetallurgical Processes and ThermodynamicsAdvanced machining processes and optimization
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