Deep learning-based intelligent control of moisture at the exit of blade charging process in cigarette production

IF 3.1 Q1 Mathematics
Jinsheng Rui, Dongchen Qiu, Shicong Hou, Jing Rong, Xiaoxiao Qin, Jianan Fan, Kai Wu, Guoliang Zhao, Chengwen Zhu
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Abstract

Currently, in the production of cigarettes in the blade, charging export moisture control means is relatively single and can not effectively guarantee the excellent quality of cigarette filament. In this paper, first of all, the working principle of the tobacco blade charging machine is introduced, and the moisture of the tobacco leaf for the charging machine is dynamically analyzed, and the influence of the return air temperature control of the charging machine on the export moisture of the blade charging process is explored. Secondly, based on the traditional PID controller, an adaptive fuzzy PID controller is established by combining adaptive fuzzy rules, and then the stacked noise-reducing self-encoder in deep learning is combined with the adaptive fuzzy PID control to design the intelligent control structure of export moisture of leaf charging process. Finally, the effectiveness of export moisture intelligence control, process capability index, and the effect before and after application were analyzed in controlled experiments, respectively. The results show that the difference between the predicted value and the real value of blade export moisture in this paper’s method is only 0.5%, and the process capability index of this paper’s method is improved by 1.48 compared with the PID controller, and it can control the temperature of the return air of the charging machine in the range of 56.86℃~57.21℃. The intelligent control method of export moisture introduced by deep learning can accurately control the export moisture of the leaf dosing process, which effectively ensures the quality of tobacco filament making.
基于深度学习的卷烟生产叶片加料过程出口水分智能控制
目前,在卷烟叶片生产中,加料出口水分控制手段较为单一,不能有效保证卷烟烟丝的优良品质。本文首先介绍了烟叶叶片加料机的工作原理,对加料机烟叶水分进行了动态分析,探讨了加料机回风温度控制对叶片加料过程出口水分的影响。其次,在传统 PID 控制器的基础上,结合自适应模糊规则建立自适应模糊 PID 控制器,再将深度学习中的叠加降噪自编码器与自适应模糊 PID 控制相结合,设计出烟叶装车过程出口水分智能控制结构。最后,通过对照实验分别分析了出口水分智能控制的有效性、过程能力指标以及应用前后的效果。结果表明,本文方法的叶片出口水分预测值与实际值之差仅为 0.5%,与 PID 控制器相比,本文方法的过程能力指数提高了 1.48,可将装药机回风温度控制在 56.86℃~57.21℃ 范围内。通过深度学习引入的出口水分智能控制方法,可以精确控制烟叶配料过程的出口水分,有效保证烟丝的制作质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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