Deep Learning-Based Predictive Control of Injection Velocity in Injection Molding Machines

• Published in: Advances in polymer technology Vol. 2022; pp. 1 - 14
• Main Authors: Ren, Zhigang, Li, Yaodong, Wu, Zongze, Xie, Shengli
• Format: Journal Article
• Language: English
• Published: Hindawi 15.11.2022; John Wiley & Sons, Inc; Wiley
• Subjects: Analysis; Computational linguistics; Language processing; Natural language interfaces; Neural networks; Plastics machinery; Simulation methods
• ISSN: 0730-6679; 1098-2329
• DOI: 10.1155/2022/7662264

Rapid and reliable optimal control of injection molding machines (IMMs) is critical for the effective production of injection-molded goods, especially in the situation of restricted computer resources of embedded equipment in IMMs. In this paper, an optimal tracking injection velocity control problem arising in a typical IMM is studied. An effective hybrid intelligent control approach with less computing resources for real-time implementation based on the deep learning (DL) method to mimic the classical model predictive control rule is developed to deal with the tracking control of the injection speed. The proposed method utilizes the gated recurrent unit neural network to learn and predict the optimal time series control process data produced by the traditional model predictive controller. The benefits of this approach over the conventional optimization method are illustrated through simulation results, which show that the convergent DL-based controller can effectively avoid the complex calculation in the control process of IMMs and meet the requirements of more robustness and resist environmental uncertainty to a certain level and can be potentially implemented in embedded hardware much more efficiently and conveniently with a smaller memory footprint and faster computation time.