Prediction Model of Rotor Yarn Quality Based on CNN-LSTM

J. Sensors Pub Date : 2022-08-08 DOI:10.1155/2022/3955047
Zhenlong Hu
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引用次数: 4

Abstract

In the whole textile industry chain, yarn production is one of the key links, which has a great impact on the quality of textile and clothing products. For a long time, the textile industry has been hoping for a yarn quality prediction technology, which can accurately predict the final yarn quality indicators according to the known conditions such as raw materials and production processes. CNN-LSTM yarn prediction model is a deep neural network model based on the assumption that the influence of textile processing time series on yarn quality is considered. CNN optimizes the input eigenvalues through one-dimensional convolution and pooling, and LSTM matches the optimized fiber performance indexes and process parameters in time series according to the processing sequence and excavates their laws, thus realizing the goal of predicting yarn quality indexes. The effects of input fiber performance index, process parameters, convolution kernel parameters, pool kernel parameters, LSTM unit number, LSTM layer number, and optimization algorithm on prediction accuracy were studied, and the parameters of CNN-LSTM model were determined. Experiments on the data set of spinning yarn show that the mean square error (MSE) of CNN-LSTM model in predicting yarn strength, Dan Qiang unevenness, evenness unevenness, and total neps is lower than that of linear regression model and BP neural network. At the same time, it is found that the prediction accuracy of CNN-LSTM model is greatly influenced by process parameters and optimization algorithm.
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基于CNN-LSTM的转纱质量预测模型
在整个纺织产业链中,纱线生产是关键环节之一,对纺织服装产品的质量影响很大。长期以来,纺织行业一直希望有一种纱线质量预测技术,能够根据已知的原料、生产工艺等条件,准确预测出最终的纱线质量指标。CNN-LSTM纱线预测模型是在考虑纺织加工时间序列对纱线质量影响的假设基础上建立的深度神经网络模型。CNN通过一维卷积和池化对输入特征值进行优化,LSTM根据加工顺序将优化后的纤维性能指标和工艺参数在时间序列上进行匹配,并挖掘其规律,从而实现纱线质量指标预测的目的。研究了输入光纤性能指标、工艺参数、卷积核参数、池核参数、LSTM单元数、LSTM层数和优化算法对预测精度的影响,确定了CNN-LSTM模型的参数。在纺纱数据集上进行的实验表明,CNN-LSTM模型在预测纱线强力、单强不匀、匀条不匀和总纱条数方面的均方误差(MSE)均低于线性回归模型和BP神经网络。同时发现,CNN-LSTM模型的预测精度受工艺参数和优化算法的影响较大。
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