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Motor Load Balancing with Roll Force Prediction for a Cold-Rolling Setup with Neural Networks

Sangho Lee, Youngdoo Son

2021Mathematics13 citationsDOIOpen Access PDF

Abstract

The use of machine learning algorithms to improve productivity and quality and to maximize efficiency in the steel industry has recently become a major trend. In this paper, we propose an algorithm that automates the setup in the cold-rolling process and maximizes productivity by predicting the roll forces and motor loads with multi-layer perceptron networks in addition to balancing the motor loads to increase production speed. The proposed method first constructs multilayer perceptron models with all available information from the components, the hot-rolling process, and the cold-rolling process. Then, the cold-rolling variables related to the normal part set-up are adjusted to balance the motor loads among the rolling stands. To validate the proposed method, we used a data set with 70,533 instances of 128 types of steels with 78 variables, extracted from the actual manufacturing process. The proposed method was found to be superior to the physical prediction model currently used for setups with regard to the prediction accuracy, motor load balancing, and production speed.

Topics & Concepts

Artificial neural networkProcess (computing)Multilayer perceptronComputer sciencePerceptronSet (abstract data type)EngineeringArtificial intelligenceProgramming languageOperating systemMineral Processing and GrindingMetallurgy and Material FormingFault Detection and Control Systems