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Complex industrial process data modeling method based on dynamic convolutional neural network

A convolutional neural network and industrial process technology, applied in the field of data-driven soft sensor modeling, can solve the problems of inconsistent data time series correlation, gradient dispersion, and inability to effectively analyze the dynamic characteristics of the process, so as to eliminate adverse effects and reduce The effect of parameter scale

Inactive Publication Date: 2018-11-09
CENT SOUTH UNIV
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AI Technical Summary

Problems solved by technology

Linear regression is a commonly used data prediction modeling method in the early days, but this method is not suitable for nonlinear and complex industrial processes
SVR, KNN and other methods mainly use appropriate distance functions such as Euclidean distance to establish regression prediction models. This type of method can effectively solve the regression problem of high-dimensional features, but it is difficult to choose a suitable kernel function and distance function.
Algorithms such as CART, RF, and GBDT are predictive modeling machine learning methods that use decision tree-based predictors representing the mapping relationship between object attributes and objects. This type of method is robust to noise and can handle it well. Large-scale, high-dimensional data, but if the decision tree is too complex, it will lead to overfitting
Algorithms such as BPNN and ELM establish a hierarchical prediction model including nodes and node relationships based on the principle of graph theory. This type of algorithm has a strong theoretical foundation, rigorous derivation process, strong versatility, and can theoretically simulate any complex nonlinear process. However, the algorithm is easy to fall into local optimum, and the phenomenon of "gradient explosion" or "gradient dispersion" will appear, and there is a lack of unified and complete theoretical guidance when designing the structure
The above-mentioned complex industrial process data predictive modeling algorithms also have a common problem that they cannot effectively analyze the dynamic characteristics of the process and solve the inconsistency of data time series correlation

Method used

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Embodiment 1

[0024] like figure 1 As shown, this embodiment provides a complex industrial process data modeling method of a dynamic convolutional neural network, comprising the following steps:

[0025] a. Select process variables that are strongly correlated with difficult target variables in complex industrial processes, and obtain the time series of each process variable by sampling;

[0026] b. Use the iso-depth binned box diagram to detect abnormal points in the time series of each process variable, and remove the detected abnormal points, and then use linear interpolation to fill in the removed abnormal point positions;

[0027] c. Extract the time series of each process variable within the range of process time lag before the sampling time of the target variable as a feature, form a two-dimensional matrix containing the dynamic characteristics of the process, and form a picture sample;

[0028] d. Construct a dynamic convolutional neural network (DCNN) to analyze the dynamic charac...

Embodiment 2

[0095] like figure 2 , 3 , 4, 5, 6, 7 and 8, on the basis of the above embodiments, this embodiment further provides a method for predicting the quality of diesel products in a hydrocracking process, using a dynamic convolutional neural network as described above A complex industrial process data modeling approach for the prediction of diesel product quality in hydrocracking processes.

[0096] Specifically, the hydrocracking process diesel product quality prediction method includes the following steps:

[0097] a, according to the hydrocracking process (such as figure 2 (shown) operating procedures and post operation methods, through mechanism analysis, a total of 38 process variables that are highly correlated with the quality of diesel products in the hydrocracking process are selected, as shown in Table 1;

[0098] In this embodiment, the sampling time interval T=5min is determined according to the modeling requirements, and 126,720 samples are taken from the extracte...

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Abstract

The invention discloses a complex industrial process data modeling method based on a dynamic convolutional neural network. The method comprises the following steps: process variables with strong correlation with industrial process objective variables are selected, and through sampling, a time sequence for each process variable is obtained; an equal depth box plot is used to carry out abnormal point detection and elimination on the time sequences, and a linear interpolation method is then used for filling; the time sequence for each process variable in a former process time delay range at the sampling moment of the objective variable is extracted, a two-dimensional matrix containing dynamic characteristics of the process is formed, and picture samples are formed; and the dynamic convolutional neural network is built to analyze the dynamic characteristics of the industrial process data, the time and space relation of each sensitive variable is recognized automatically, and a prediction model for the objective variable is built. A large amount of historical data accumulated in the actual production process field is used, a data model of predicting an unpredictable objective variable by using a predictable process variable is built accurately, and an important role is played in online production process evaluation, dynamic adjustment and even energy conservation and emission reduction.

Description

technical field [0001] The invention relates to the technical field of data-driven soft sensor modeling, in particular to a dynamic convolutional neural network data prediction modeling method suitable for complex industrial processes. Background technique [0002] The performance indicators of large-scale and complex industrial processes often rely on the "fixed-point and timing" offline assay method for detection. This detection method has serious hysteresis and is very unfavorable to the online evaluation and adjustment of the overall operating status of the process; and, considering operability, For issues such as safety, many indicators cannot or are difficult to be measured by sensors in the form of online assays. Therefore, it is particularly important to model complex industrial processes and predict indicators in real time. Predictive modeling is mainly divided into two types: mechanism-based and data-driven. Due to the complexity of the industrial process mechanis...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06N3/04G06N3/08C10G67/02
CPCG06N3/08C10G67/02G06N3/045
Inventor 袁小锋王雅琳夏海兵李灵吴东哲潘卓夫曹跃桂卫华
Owner CENT SOUTH UNIV
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