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Fault Detection Method for Continuous Processes Based on Integrated Kernel Local Preserving Projection

A technology that maintains projection locally and detects faults. It is applied to computer components, data processing applications, and instruments. It can solve problems such as different parameters and non-unique faults, and achieve the effect of improving utilization.

Inactive Publication Date: 2019-04-05
SHENYANG INSTITUTE OF CHEMICAL TECHNOLOGY
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Problems solved by technology

However, the faults in the production process are usually not unique, and the kernel parameters selected from this are not necessarily applicable to all faults. For different faults, the applicable parameters will be significantly different.

Method used

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  • Fault Detection Method for Continuous Processes Based on Integrated Kernel Local Preserving Projection

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Embodiment Construction

[0015] The present invention will be described in detail below in conjunction with examples.

[0016] The invention uses the Gaussian kernel function to preprocess the continuous process data, and extracts the nonlinear information of the original data. Based on the preprocessing, the local structure of the original data is preserved using locality-preserving projections. By selecting Gaussian kernel functions with different kernel parameters to solve the problem that parameter selection affects fault detection results, multiple sub-models are established, and Bayesian decision-making and ensemble learning methods are used to combine each detection result for continuous process fault detection. This technology solves the problem that the traditional KLPP method selects the same kernel parameters when dealing with different faults.

[0017] Fault detection technology based on integrated kernel local-holding projection: In order to detect process faults, it is necessary to use ...

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Abstract

A continuous process fault detection method based on integrated kernel local preservation projection, which involves a continuous process fault detection method for kernel parameter selection, including using historical data under normal conditions as the training set of modeling data, and using Gaussian kernel function to model The data is transformed by kernel, and the EKLPP method is used for nonlinear continuous process modeling and fault detection. First, normalize the training data matrix. The KLPP method is used to convert it into a kernel matrix to replace the data to be detected, and the Bayesian decision is used to convert each detection result into a form of probability of failure. According to whether the integrated statistics exceed the control limit, it is judged whether the data at this time is normal. If the integration statistic exceeds the control limit, the data is faulty at that moment. If the test shows that the system fails, the staff needs to find out the situation and eliminate the dangerous situation. The invention effectively solves the problem that the applicable parameters are different for different faults.

Description

technical field [0001] The invention relates to a non-linear process fault detection method, in particular to a partial fault detection method dealing with different fault core parameter selections. Background technique [0002] As one of the important fields of industrial production, the chemical production process is increasingly showing nonlinear characteristics. The traditional global fault detection method can only retain the global information of the original data and destroy its local structure. How to effectively extract the faults in the production process? The local information of the original data to monitor the nonlinear process has become an important content of fault detection technology research. [0003] The kernel locality preserving projection method has obvious advantages in dealing with the problem of preserving the local structure of nonlinear data. However, people usually use the Gaussian kernel function when processing data with the traditional kernel...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06K9/62G06Q10/06
CPCG06Q10/0635G06F18/213G06F18/24155G06F18/214
Inventor 郭金玉王鑫李元
Owner SHENYANG INSTITUTE OF CHEMICAL TECHNOLOGY
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