GPR modeling based on kernel slow feature analysis and time delay estimation

A feature analysis and slow feature technology, applied in the field of GPR modeling, can solve problems such as long running time, impossibility of estimated delay, wrong conclusions, etc., to improve product quality, reduce production costs, and increase output.

Active Publication Date: 2017-12-01
JIANGNAN UNIV
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Problems solved by technology

Due to the complexity of the actual industrial process technology, it becomes impossible to estimate the time delay through the process technology
Zhang and Komulaine estimate the time delay by constructing the correlation coefficient between input variables and output variables, but because this method only considers the linear relationship between variables, it may get wrong conclusions for nonlinear cases
Ruan Hongmei et al. used the difference estimation (DE) algorithm to optimize the joint mutual information between process variables to determine the time delay, but the intelligent optimization algorithm is easy to fall into a local optimum, and the computational complexity of joint mutual information analysis correlation is high, and the running time longer

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  • GPR modeling based on kernel slow feature analysis and time delay estimation
  • GPR modeling based on kernel slow feature analysis and time delay estimation
  • GPR modeling based on kernel slow feature analysis and time delay estimation

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Embodiment Construction

[0020] Combine below image 3 Shown, the present invention is described in further detail:

[0021] Take the common chemical process—debutanizer process as an example. The experimental data come from the debutanizer process, and the butane concentration at the bottom of the debutanizer is predicted.

[0022] Step 1: Collect input and output data to form a historical training database.

[0023] Step 2: Standardize the training sample data and perform T for each input variable max +1 dimensional expansion. Among them, T max is the maximum delay.

[0024] Step 3: Determine the optimal time lag of each input variable by fuzzy curve analysis (FCA), defined as d 1 , d 2 ,...,d m . where m is the dimension of the sample. Described fuzzy curve analysis algorithm is:

[0025] FCA is used to select important input variables. By constructing the fuzzy logic between the input and output variables, the input variables that are important to the output variables are determined. ...

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Abstract

The present invention discloses a GPR modeling method based on kernel slow feature analysis and time delay estimation, which is applied to chemical processes with time delay and non-linearity. The method is characterized in that: by using fuzzy curve analysis, the delay information in industrial data is fully tapped to obtain the optimal delay in the data, and the reconstruction of the modeling data is carried out; the kernel slow feature analysis method is further used to carry out nonlinear feature extraction on the reconstructed data; and finally, based on the extracted features, a Gaussian process regression model is established to realize accurate prediction of the key variables, so as to improve product quality and reduce production costs.

Description

technical field [0001] The invention relates to GPR modeling of kernel-slow feature analysis and time-lag estimation, and belongs to the fields of complex industrial process modeling and soft measurement. Background technique [0002] In real industrial processes, the measurement of some key variables is crucial to produce high-quality products. However, under the constraints of existing technical conditions and economic costs, it is very difficult to directly obtain key variables. [0003] Based on this background, soft sensing technology came into being. It infers and estimates difficult key variables by constructing the functional relationship between process measurable variables and key variables, so it has been widely used. Common soft sensor modeling methods such as partial least squares, neural network, least squares support vector machine, etc. can get good prediction results. Gaussian process regression (GPR) has been widely used in soft sensor modeling in recent...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCG06F30/20
Inventor 熊伟丽彭慧来陈树
Owner JIANGNAN UNIV
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