Method for predicting fault trends of steam turbines by aid of adaptive quantum neural networks

A trend prediction, quantum neural technology, applied in biological neural network models, special data processing applications, instruments, etc., can solve problems such as low model accuracy, slow training speed, and insufficient sensitivity

Active Publication Date: 2015-03-04
BEIJING SIFANG JIBAO AUTOMATION
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Problems solved by technology

[0005] 1. The learning efficiency is fixed, and it is easy to fall into the flat area at the bottom of the error surface;
[0006] 2. If a single state variable is modeled, it cannot reflect the influence of other types of state variables on the results and reduce the prediction accuracy;
[0007] 3. According to the fault development mechanism, the trend should be more relevant to the latest data, while the traditional BP network, the input data

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  • Method for predicting fault trends of steam turbines by aid of adaptive quantum neural networks
  • Method for predicting fault trends of steam turbines by aid of adaptive quantum neural networks
  • Method for predicting fault trends of steam turbines by aid of adaptive quantum neural networks

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Embodiment Construction

[0026] The technical solution of the present application will be described in detail below in conjunction with the accompanying drawings.

[0027] Such as figure 1 As shown, the adaptive quantum neural network described in this embodiment method for trend prediction of steam turbine faults is implemented according to the following steps:

[0028] Step 1: Use the steam turbine real-time data monitoring system (TDM) to collect and record various state variable data during the operation of the steam turbine, analyze the state variables, extract the state variables that have a direct or indirect impact on the predictive variables, and perform information fusion on them as sample input.

[0029] Since there is a clear international standard for the vibration intensity, its value can sensitively reflect the vibration of the steam turbine, so it is selected as the predictive variable y.

[0030] The vibration intensity prediction is not only directly related to the historical vibra...

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Abstract

The invention discloses a method for predicting fault trends of steam turbines by the aid of adaptive quantum neural networks. The method has the advantages that the traditional three-layer BP (back propagation) neural network models are improved, the quantum neural networks are introduced into the traditional three-layer BP neural network models, trend contribution force of different historical data is analyzed in input layers, influence of the latest data on the trends can be improved, direct connection weights from the input layers to output layers can be increased, excitation functions can be adaptively adjusted by the output layers according to signal characteristics, accordingly, the convergence speeds can be increased, and the prediction precision can be improved; the convergence speeds can be increased by the aid of the method for introducing the adaptive learning efficiency; the method is excellent in reliability and robustness, is key technical research on prediction of the fault trends of the steam turbines and can be widely applied to predicting the fault trends of the steam turbines.

Description

technical field [0001] The invention relates to an adaptive quantum neural network prediction method based on multi-factor input in steam turbine failure trend prediction. Background technique [0002] Turbine faults can affect production in the slightest, and cause system paralysis or even catastrophic accidents in severe cases, resulting in major economic losses. Steam turbine faults have attracted great attention. Generally, large steam turbine generator sets are equipped with TSI (steam turbine on-line vibration monitoring and protection system) and TDM (steam turbine real-time data fault diagnosis system). Fault prediction can reveal the development and changes of faults, and take effective preventive measures before accidents to prevent faults from occurring, so fault prediction is more important than maintenance after faults occur. [0003] The faults of steam turbines generally do not occur instantaneously, and most of them have a certain time delay, that is, it is ...

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Application Information

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IPC IPC(8): G06F19/00G06N3/02
Inventor 张天侠
Owner BEIJING SIFANG JIBAO AUTOMATION
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