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Industrial process soft measurement modeling method based on cooperative training partial least squares model

A partial least squares, collaborative training technology, applied in instruments, adaptive control, control/regulation systems, etc., can solve the problems that the model prediction accuracy cannot reach effective accuracy, and the dominant variables are difficult to detect and ignore. Facilitate automated implementation, enhanced understanding and operational confidence, and improved forecasting effectiveness

Inactive Publication Date: 2015-09-16
ZHEJIANG UNIV
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Problems solved by technology

However, when the number of training samples in the traditional multivariate statistical method is small, the prediction accuracy of the established model often cannot achieve effective accuracy; in addition, the data used in the modeling of the traditional multivariate statistical learning method are often those The auxiliary variable has data corresponding to the information of the leading variable, and the data without the corresponding leading variable and only the information of the auxiliary variable is often directly ignored
In the industrial process, based on the above-mentioned reasons that the leading variable is difficult to detect, there are a large number of data in the industrial process that do not contain the leading variable and only auxiliary variable information. These data contain a lot of useful information and are discarded directly. no waste

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  • Industrial process soft measurement modeling method based on cooperative training partial least squares model
  • Industrial process soft measurement modeling method based on cooperative training partial least squares model
  • Industrial process soft measurement modeling method based on cooperative training partial least squares model

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Embodiment Construction

[0019] The present invention is aimed at the soft sensor modeling problem in the case of less training data in the industrial process. Firstly, the distributed control system is used to collect labeled and unlabeled data, and the labeled data is used to establish two initial models with certain differences, and then On the basis of the initial model, through continuous iterative cycles, the unlabeled data with the highest confidence is gradually converted into labeled data and added to the training set, gradually expanding the number of samples in the training set, and finally achieving the effect of improving the accuracy of the model . The invention not only improves the prediction effect of the soft sensor model of the industrial process, enhances the process operator's grasp of the process state, makes the industrial production safer, and the product quality is more stable; The dependence of knowledge is more conducive to the implementation of automation in industrial proc...

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Abstract

The invention discloses a soft measurement research method for the industrial production process under the condition that the number of available training samples is small, which is applied to carrying out soft measurement modeling under the condition that modeling data is small in amount and realizing prediction for product information. According to the invention, an effective linear prediction model is established by using a cooperative training based partial least squares learning method, a problem of low model precision under the condition that sampling data of the industrial production process is small in amount, and the predication accuracy and the performance of the model established in allusion to the process are improved, thereby enabling the industrial production process to be more reliable, and enabling the product quality to be more stable.

Description

technical field [0001] The invention belongs to the field of industrial process prediction and control, and in particular relates to a soft sensor modeling method of a cooperative training algorithm and a partial least squares algorithm. Background technique [0002] In the traditional industrial process, there are many variables that cannot or are difficult to be directly measured by sensors, such as product reaction rate, product component content, etc., and these parameters play an important role in improving product quality and ensuring safe production, and are necessary in the industrial production process. Parameters that are strictly monitored and controlled. Although these variables can be detected by online analytical instruments, on the one hand, it requires a large amount of investment, and on the other hand, the adjustment may not be timely due to the large measurement lag, making it difficult to guarantee product quality. These variables that play an important ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
Inventor 包亮葛志强
Owner ZHEJIANG UNIV
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