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Industrial control system multi-loop oscillation causality analysis method based on improved CCM

A technology of industrial control system and causal relationship, which is applied in general control system, control/regulation system, comprehensive factory control, etc., can solve problems such as influence, causal analysis interference, and reduce the accuracy of causal analysis, so as to improve analysis efficiency and eliminate Interference term, the effect of reducing the workload of causal analysis

Active Publication Date: 2020-09-04
ZHEJIANG UNIV
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Problems solved by technology

In particular, some oscillating signals are similar to periodic sinusoidal signals. There is often a phase difference between sinusoidal signals, and it is often impossible to directly determine the specific lag information between the two based on the phase difference, thus reducing the accuracy of causal analysis.
Periodic signals may also make signals similar and synergistic, which interferes with causal analysis
In addition to periodic signals, unwanted noise, which is almost unavoidable in industrial processes, can also have an impact on causal analysis

Method used

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  • Industrial control system multi-loop oscillation causality analysis method based on improved CCM
  • Industrial control system multi-loop oscillation causality analysis method based on improved CCM
  • Industrial control system multi-loop oscillation causality analysis method based on improved CCM

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Embodiment Construction

[0072] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be noted that the following embodiments are intended to facilitate the understanding of the present invention, but do not limit it in any way.

[0073] Taking the oscillation loop in the TE process based on the distributed control strategy as an example, the improved CCM causality analysis method for the chemical process with multiple oscillation loops is described in detail below.

[0074] The TE process in this embodiment adopts a distributed control strategy, and the process and control strategy are as follows figure 1 Shown, according to "Ricker N L. Decentralized control of the Tennessee Eastman challenge process [J]. Journal of Process Control, 1996, 6 (4): 205-221.".

[0075] TE process is a chemical process model designed by Eastman Chemical Company based on actual industrial process. The whole process mainly includes five opera...

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Abstract

The invention discloses an industrial control system multi-loop oscillation causality analysis method based on an improved CCM. The method comprises the following steps: calculating mutual informationbetween every two oscillation circuit process output signals to be analyzed to perform feature selection, a loop signal pair with a relatively high correlation degree is reserved; removing noise andperiodic terms by using EMD and DFA methods; calculating a cross mapping index of the reconstructed sub-signal pair under different time delays by using a CCM method; preliminarily judging the authenticity of the causal relationship according to the positive and negative of the optimal time delay, then the cross mapping indexes of each target sub-signal pair corresponding to the optimal time delayunder different sample lengths are calculated, judging whether convergence occurs according to the convergence threshold, and finally obtaining the final causal relationship network of the oscillation circuit, so that the oscillation propagation path is determined and the oscillation source is positioned. According to the method, the oscillation propagation path in the industrial control system can be rapidly and accurately diagnosed, the oscillation source can be positioned, and a new thought is provided for fault diagnosis of the oscillation circuit of the industrial control system by usinga causal analysis method.

Description

technical field [0001] The invention belongs to the field of fault diagnosis of industrial control systems, in particular to an improved CCM-based multi-loop oscillation causality analysis method for industrial control systems. Background technique [0002] About 30% of industrial control loops have oscillatory faults due to controller overtuning, valve stickiness, external disturbances, and process nonlinearities. Oscillation is one of the main causes of control performance degradation in industrial control systems. Continuous oscillation increases the wear and tear of industrial equipment, reduces product quality, seriously affects factory production efficiency and even creates potential safety hazards. There may be thousands of loops in a large-scale industrial control system. Due to the mutual influence and high coupling between the loops, the oscillation of any one of them may be transmitted to other loops of the system, eventually leading to global oscillation. [00...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/00G05B19/418
CPCG05B19/4183G06F2218/22G06F2218/04Y02P90/02
Inventor 谢磊费新怡陈启明苏宏业
Owner ZHEJIANG UNIV
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