Prediction of maximal water bursting discharge from coal seam floor based on multiple nonlinear regression analysis

Aimed at the influences of various complicated factors for water inrush from a coal seam floor during coal seam mining, the prediction of the maximal water bursting discharge from a coal seam floor is regarded as a problem of pattern identification with nonlinear, high dimensions, and finite samples...

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Bibliographic Details
Published in:Arabian journal of geosciences 2019-09, Vol.12 (18), p.1-20, Article 567
Main Authors: Qu, Xingyue, Qiu, Mei, Liu, Jinhui, Niu, Zhichao, Wu, Xiangsheng
Format: Article
Language:English
Subjects:
Aquifers
Bursting
Coal
Coal mines
Coal mining
Connecting
Correlation analysis
Data integration
Dimensions
Earth and Environmental Science
Earth science
Earth Sciences
Evaluation
Floors
Forecasting
Functional programming
Hydrostatic pressure
Inflow
Information processing
Ismsse 2018
Mine Safety Science and Engineering
Mining
Multisensor fusion
Nonlinear analysis
Predictive control
Regression analysis
Regression models
State estimation
Theories
Thickness
Water
Water depth
Water discharge
Water inrush
Water pressure
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Summary:Aimed at the influences of various complicated factors for water inrush from a coal seam floor during coal seam mining, the prediction of the maximal water bursting discharge from a coal seam floor is regarded as a problem of pattern identification with nonlinear, high dimensions, and finite samples. Based on information fusion theory and regarding the prediction of maximal water bursting discharge from a coal seam floor as a process of multisource information fusion and state estimation, an evaluation system of the main controlling factors for predicting the maximal water bursting discharge from a coal seam floor was established. An evaluation model for forecasting the maximal water bursting discharge from a coal seam floor was also structured according to multiple nonlinear regression theory. Considering the major coal mines of Xinwen coalfield as the research background, six factors are selected as the basic discriminant factors, i.e., aquifer thickness, unit water inflow, water pressure, aquiclude thickness, fault influencing factor, and depth of a coal seam floor destroyed by rock pressure. Deng’s grey relational theory was used to analyze the correlation degrees between each main controlling factor and the maximal water bursting discharge from a coal seam floor. A structural equation model was adopted to reveal the internal connecting links among the key influencing factors and determine the weights of each main controlling factor for predicting the maximal water bursting discharge from a coal seam floor. An SPSS scatter plot and MATLAB functional programming were applied to fit the correlativity curves between each main controlling factor and the maximal water bursting discharge from a coal seam floor in the Xinwen Mining Area. The optimal unitary nonlinear regression models between the maximal water bursting discharge from the coal seam floor and each main control factor were established. A multiple nonlinear regression–modified model for predicting the maximal water bursting discharge from the coal seam floor was acquired using a multiple nonlinear regression analysis with the combined weights of each main control factor. Compared with the bivariant multiple regression equation and the measured data, the results showed that the average values of forecasting errors predicted by the multiple nonlinear regression–modified model and bivariant multiple regression equation are 10.53% and 16.76%, respectively, which indicates that the multiple nonlinear
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-019-4748-7