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Prediction method of rock burst hazard level based on local weighted c4.5 algorithm

A technology of rock burst and local weighting, which is applied in the field of level prediction, can solve the problems of increasing the difficulty of rock burst prediction, not considering the problem of model overfitting, and not fully understanding the mechanism of rock burst, so as to improve the accuracy Sex, the effect of avoiding overfitting problems

Active Publication Date: 2021-10-08
LIAONING TECHNICAL UNIVERSITY
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Problems solved by technology

[0003] Prediction and evaluation of rock burst is a key step in the prevention and control of rock burst based on the study of the mechanism of rock burst, but because the mechanism of rock burst is not fully understood, especially for deep rock burst The research on the mechanism of rock burst is still in its infancy, which increases the difficulty of rock burst prediction
At present, the methods for predicting rock burst mainly include rock mechanics methods and geophysical methods, among which rock mechanics methods include drilling cuttings method, mining stress detection method, etc., and geophysical methods include geoacoustic monitoring, microseismic monitoring, electromagnetic radiation monitoring, etc. method; in addition, with the development of artificial intelligence, there have been some methods for predicting rock burst using intelligent algorithms, such as: neural network method, Bayes discriminant analysis method, support vector machine, etc. A large number of research results have been obtained in this method, but there are still some problems, such as the neural network generally requires more samples, but the sample size used for rock burst prediction is less, the Bayes method requires high independence between data, and In reality, it is difficult for the sampling data of rock burst to meet the independence requirements, and the above method does not consider the overfitting problem of the model, etc.

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  • Prediction method of rock burst hazard level based on local weighted c4.5 algorithm
  • Prediction method of rock burst hazard level based on local weighted c4.5 algorithm
  • Prediction method of rock burst hazard level based on local weighted c4.5 algorithm

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Embodiment Construction

[0043] The specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

[0044] In this embodiment, Yanshitai Coal Mine in a certain area is taken as an example, and the rock burst risk level prediction method based on the local weighted C4.5 algorithm of the present invention is used to predict the rock burst risk level of the Yanshitai Coal Mine.

[0045] The prediction method of rock burst hazard level based on the local weighted C4.5 algorithm, such as figure 1 shown, including the following steps:

[0046] Step 1. Collect known types of rockburst data as sample data. Suppose the collected sample data set is T, the sample category set is C, k' is the total number of sample categories, and the number of samples is N.

[0047] Since there a...

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Abstract

The invention provides a method for predicting the hazard level of rock burst based on a local weighted C4.5 algorithm, and relates to the technical field of rock burst prediction. This method first uses the MDLP method to discretize the continuous attribute data in the sample data, then uses the local weighting method to select the training set and calculate the sample weight, uses the sample weight to calculate the information gain rate of each attribute, and selects the sample attribute according to the information gain rate as C4.5 The root node of the decision tree and the split attributes of other branch nodes. Finally, the decision tree is pessimistically pruned by using the sample weight instead of the number of samples to realize the prediction of the rock burst hazard level in the predicted area. The method for predicting the hazard level of rock burst based on the local weighted C4.5 algorithm provided by the present invention overcomes the disadvantage of using information gain to select node split attributes in the ID3 algorithm, and avoids the problem of over-fitting. The prediction accuracy of the model is high.

Description

technical field [0001] The invention relates to the technical field of rock burst prediction, in particular to a method for predicting a rock burst hazard level based on a local weighted C4.5 algorithm. Background technique [0002] Rock burst is a dynamic phenomenon characterized by sudden, sharp and violent damage caused by the release of deformation energy of the coal and rock mass around mine shafts and stopes. It is one of the major disasters that affect the safety of coal mine production. All countries are threatened by rock burst to varying degrees. In recent years, developed countries have shut down rock burst mines due to energy structure adjustment and safety considerations. my country has become the main victim of rock burst and the main country for rock burst prevention nation. [0003] Prediction and evaluation of rock burst is a key step in the prevention and control of rock burst based on the study of the mechanism of rock burst, but because the mechanism of ro...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F30/20
CPCG06F30/20
Inventor 王彦彬彭连会何满辉
Owner LIAONING TECHNICAL UNIVERSITY
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