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System identification and predictive control of laser marking of ceramic materials using artificial neural networks
Journal article   Peer reviewed

System identification and predictive control of laser marking of ceramic materials using artificial neural networks

A. A. Peligrad, Erping Zhou, D. Morton and L. Li
Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, Vol.216(2), pp.181-190
2002
DOI: https://doi.org/10.1243/0959651021541543

Abstract

clay tiles laser marking neural network control system system identification non-linear dynamic systems
Laser marking of ceramic materials is a multivariable non-linear process. Real-time control of the process requires the understanding of system dynamics and parameter interaction. In this work, direct inverse control (DIC) and non-linear predictive control (NPC) based on artificial neural networks were applied. The output variable considered for the laser clay tile-marking process was melt pool temperature. The input quantities investigated were laser power and traverse speed. The results show that the NPC accomplished a better reference tracking than the DIC. It was also found that the beam velocity and laser power could well be used to counteract disturbances.

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