[1]张 杰,张子蓬. 基于改进GRU的白酒蒸汽运行预测模型研究[J].湖北工业大学学报,2022,(4):43-48+61.
 ZHANG Jie,ZHANG Zipeng. Research on Fermented Grains Steam Running Condition Prediction Model of Make Wine Robot Based on Modified GRU[J].,2022,(4):43-48+61.
点击复制

 基于改进GRU的白酒蒸汽运行预测模型研究()
分享到:

《湖北工业大学学报》[ISSN:1003-4684/CN:42-1752/Z]

卷:
期数:
2022年第4期
页码:
43-48+61
栏目:
湖北工业大学学报
出版日期:
2022-08-28

文章信息/Info

Title:
 Research on Fermented Grains Steam Running Condition Prediction Model of Make Wine Robot Based on Modified GRU
文章编号:
1003-4684(2022)04-0043-06
作者:
 张 杰 张子蓬
 湖北工业大学计算机学院, 湖北 武汉 430068
Author(s):
 ZHANG Jie ZHANG Zipeng
 School of Computer Science, Hubei Univ. of Tech., Wuhan 430068,China
关键词:
 白酒蒸汽运行状态 门控循环单元 时间序列回归 上甑机器人
Keywords:
 liquor steam operation state gated recurrent unit time series regression upper retort robot
分类号:
TP18
文献标志码:
A
摘要:
 中国白酒酿造的关键步骤是上甑蒸馏,在探气上甑蒸馏过程中,白酒蒸汽的运行状态的准确预测起到重要作用,其变化受多种因素影响,为预测带来了很大的难度。针对该问题,提出基于改进的门控循环循环单元的白酒蒸汽运行状态预测模型。基于梯度提升树分析白酒蒸汽影响因素的重要性,根据重要性进行有序组合,然后输入门控循环单元,得到最优预测模型并实现白酒蒸汽状态预测。利用酒醅和蒸汽的历史时间序列信息搭建蒸汽状态预测模型,实现蒸汽状态的准确预测。本文使用劲牌酒厂上甑过程数据,最优均方根误差为2.276,平均绝对误差为1.623。实验结果表明本文提出的改进的门控循环单元模型可以较精确地预测白酒蒸汽运行状态的变化趋势。
Abstract:
 The key step of Chinese liquor brewing is steamer distillation. In the process of exploring steam, the accurate prediction of liquor steam plays an important role. Its changes are affected by various factors, which brings about great difficulty for prediction. Less research on this problem proposes liquor steam operation state prediction model based on improved gating cycle unit. The importance of liquor steam based on the gradient lifting tree is analyzed, orderly combined according to the importance, and then the gating cycle unit is input to obtain the optimal prediction model and realize liquor steam state prediction. The historical time series information of fermented grains and steam is used to build a steam state prediction model and realize the accurate prediction of steam state. Using the steamer process data, the optimal root mean square error is 2.276, and the average absolute error is 1.623. The results show that the improved gated cycle unit model can predict the trend of liquor steam.

参考文献/References:

[1] 杨波.中国传统固态发酵技术的守正创新——以传统固态酿造汾酒为例[J].酿酒科技,2021(7):106-109.
[2] 张贵宇,李杉.上甑机器人在白酒固态蒸馏中的应用现状与探讨[J].食品工业科技, 2017,38(13):216-219+224.
[3] 张子蓬,王淑青.上甑机器人运动学分析及轨迹研究[J].食品与机械, 2020,36(12):70-73.
[4] RUAN Y,ZOU Y,CHEN M,et al.Monitoring the spatiotemp-oral trajectory of urban area hotspots using the svm regression method based on NPP-VIIRS imagery[J].ISP-RS International Journal of Ge-o-Information,2021,10(6):415.
[5] MAO Z,ZHENG T,LIAN Z.Information system construction and research on preference of model by multi-class de-cision tree regression[J].Journal of Physics: Conference Series,2021,1982(1):141-153.
[6] WANG F,WANG Y,ZHANG K,et al .Spatial heterogeneity modeling of water quality based on random forest regre-ssion and model interpretation[J].Environmental Research, 2021,202:111-116.
[7] KWAK S,CHOI J,et al. Predicting instability frequency and amplitude using artificial neural network in a p-artially premixed combustor[J].Energy, 2021,230:120-154.
[8] 陈小强,许仙珍,蔡璐璐,等.基于GMDH神经网络的超超临界机组过热蒸汽温度预测模型及仿真研究[J].热力发电, 2014,43(6):102-107.
[9] 朱清智,董泽.基于CAWOA-PELM的汽轮机主蒸汽流量预测[J].计算机仿真, 2020,37(9):93-98.
[10] 谢七月,周超.基于改进自适应GPC的锅炉主蒸汽温度预测控制[J].热能动力工程, 2018,33(12):86-92.
[11] ROMINUS VALSALAM,ANISH,RAJA SINGH.Boiler modelling and optimal control of steam temperature in power plants[J].IFAC Proceedings Volumes,2009,42(9):125-130.
[12] LIU XIANGJIE, LIU JIZHEN. Neuro-fuzzy generalized predicti-ve control of boiler steam temperature[J].Jou-rnal of Cont-rol Theory and Applications, 2007,5(1):83-88.
[13] MARJAN GOLOB,DUAN STRUNIK,JURIJ AVSEC.Artificial neural networking model for the prediction of high efficiency boiler steam generation and distribution[J].Simulation Mo-delling Practice and Theory,2015,57:58-70.
[14] HOANG-PHUONG NGUYEN,JIE LIU.A long-term prediction app-roach based on long short-term memory neural networks with automatic parameter optimization by Tree-structured Parzen Estimator and applied to time-series data of NP-P steam generators[J].Applied Soft Computing Journal,2020,89:106-116.
[15] ALIZAMIR M, KISI O, AHMED A N, et al. Advanced machine learning model for better prediction accuracy of soil temperature at different depths[J]. PLoS ONE, 2020, 15(4):e0231055.
[16] BENOIT DELCROIX, JRME LE NY, MICHEL BERNIER.Autoregr-essive neural networks with exogenous variables for indo-or temperature prediction in buildings[J].Springer,2021,14(1):165-178.
[17] ALI A , HASSANEIN H S . Time-series prediction for sensing in smart greenhouses[C]∥ GLOBECOM 2020-2020 IEEE Global Communications Conference.IEEE Global Communications Conference, 2020.
[18] 姚德臣,李博阳,刘恒畅,等.基于注意力GRU算法的滚动轴承剩余寿命预测[J].振动与冲击, 2021,40(17):116-123.
[19] YU ZHICHAO,WANG ZHIZHANG, SO ON.Volcanic lithology identification based on parameter-optimized GBDT algorithm: a case study in the jilin oilfield, songliao basin, NE China[J].Journal of Applied Geophysics,2021,194:104-118.
[20] 卜建东.茅台镇白酒旅游产业发展研究[J].旅游纵览, 2020(8):103-105.
[21] HOCHREITER S,JRGEN S.Long short-term memory[J].Neural Computation,1997,9(8) : 1735-1780.

相似文献/References:

[1]熊韧,曹海印,王焱清,等.非牛顿润滑静压轴承的节流器流量方程修正[J].湖北工业大学学报,2019,34(5):6.
 XIONG Ren,CAO Haiyin,WANG Yanqing,et al.Modified restrictor flow equations of hydrostatic bearings ubricated by non-Newtonian fluids[J].,2019,34(4):6.
[2]王照远,曹 民,王 毅,等. 场景与数据双驱动的隧道图像拼接方法[J].湖北工业大学学报,2020,(4):11.
 WANG Zhaoyuan,CAO Min,WANG Yi,et al. Tunnel Image Stitching Method based on Scene and Data[J].,2020,(4):11.
[3]潘 健,梁佳成,陈凤娇,等. 单电流闭环多重PR控制的LCL型逆变器[J].湖北工业大学学报,2020,(4):16.
 PAN Jian,LIANG Jiacheng,CHEN Fengjiao,et al. Design of LCL Grid Connected Inverter based on Single Closed Loop Control and Multiple PR Controllers[J].,2020,(4):16.
[4]王晓光,赵 萌,文益雪,等. 定子闭口槽结构对永磁电机齿槽转矩影响分析[J].湖北工业大学学报,2020,(4):25.
 WANG Xiaoguang,ZHAO Meng,WEN Yixue,et al. Study on Cogging Torque and Vibration Noise of Permanent Magnet Motor with Segmental Stator and Closed-Slot[J].,2020,(4):25.
[5]宇 卫,凃玲英,陈 健. 风电场集中接入对集电线电流保护的影响[J].湖北工业大学学报,2020,(4):29.
 YU Wei,TU Lingying,CHEN Jian. Effect of the Collective Line Current Protection when Wind Farms are Centralized Accessed to the Power System[J].,2020,(4):29.
[6]廖政斌,王泽飞,祝 珊. 二惯量系统谐振在线抑制及相位补偿[J].湖北工业大学学报,2020,(4):34.
 LIAO Zhengbin,WANG Zefei,ZHU Shan. Online Resonance Suppression and Phase Compensation for Double Inertia System[J].,2020,(4):34.
[7]王 欣,游 颖,姜天翔,等. 面向3D打印过程的产品工艺设计和优化[J].湖北工业大学学报,2020,(4):39.
 WANG Xin,YOU Ying,JIANG Tianxiang,et al. Product Process Design and Optimization for 3D Printing Processes[J].,2020,(4):39.
[8]冉晶晶,文 红,罗雅梅,等. 全自动样品前处理平台及其控制系统[J].湖北工业大学学报,2020,(4):43.
 RAN Jingjing,WEN Hong,LUO Yamei,et al. Research on Automatic Sample Preprocessing Platform and its Control System[J].,2020,(4):43.
[9]杨 磊,马志艳,石 敏,等. 基于模糊PID的小型冷库过热度控制方法[J].湖北工业大学学报,2020,(4):43.
 YANG Lei,MA Zhiyan,SHI Min,et al. Research on Superheat Control Method of Small Cold Storage based on Fuzzy PID[J].,2020,(4):43.
[10]黄 晶,周细枝,周业望. 动态注塑成型模具的设计与实验研究[J].湖北工业大学学报,2020,(4):52.
 HUANG Jing,ZHOU Xizhi,ZHOU Yewang. Design and Experimental Study of Dynamic Injection Molding[J].,2020,(4):52.

备注/Memo

备注/Memo:
[收稿日期] 2021-10-28
[基金项目] 湖北省科技厅重大专项基金(2018ABA084)
[第一作者] 张 杰(1994-),男,湖北荆州人,湖北工业大学硕士研究生,研究方向为计算机视觉,目标检测,人工智能
[通信作者] 张子蓬(1975-),男,山东武城人,湖北工业大学副教授,武汉奋进智能机器有限公司总设计师,研究方向为工业智能机器人,人工智能
更新日期/Last Update: 2022-08-29