Water inrush evaluation of coal seam floor by integrating the water inrush coefficient and the information of water abundance

The method of singular coefficient of water inrush to achieve safety mining has limitation and one sidedness. Aiming at the problem above, large amounts of data about water inrush were collected. Then the data, including the maximum water inrush, water inrush coefficient and water abundance in aquif...

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Veröffentlicht in:	International journal of mining science and technology 2014-09, Vol.24 (5), p.677-681
Hauptverfasser:	Shi, Longqing, Qiu, Mei, Wei, Wenxue, Xu, Dongjing, Han, Jin
Format:	Artikel
Sprache:	eng
Schlagworte:	Floor water inrush Support vector machine Units-inflow Water abundance Water inrush coefficient 信息支持向量机整合煤层底板突水系数和评价等级预测模型
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container_end_page	681
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container_title	International journal of mining science and technology
container_volume	24
creator	Shi, Longqing Qiu, Mei Wei, Wenxue Xu, Dongjing Han, Jin
description	The method of singular coefficient of water inrush to achieve safety mining has limitation and one sidedness. Aiming at the problem above, large amounts of data about water inrush were collected. Then the data, including the maximum water inrush, water inrush coefficient and water abundance in aquifers of working face, were processed by the statistical analysis. The analysis results indicate that both water inrush coefficient and water abundance in aquifers should be taken into consideration when evaluating the danger of water inrush from coal seam floor. The prediction model of safe-mining evaluation grade was built by using the support vector machine, and the result shows that this model has high classifica- tion accuracy. A feasible classification system of water-inrush safety evaluation can be got by using the data visualization method which makes the implicit support vector machine models explicit.
doi_str_mv	10.1016/j.ijmst.2014.03.028
format	Article
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Aiming at the problem above, large amounts of data about water inrush were collected. Then the data, including the maximum water inrush, water inrush coefficient and water abundance in aquifers of working face, were processed by the statistical analysis. The analysis results indicate that both water inrush coefficient and water abundance in aquifers should be taken into consideration when evaluating the danger of water inrush from coal seam floor. The prediction model of safe-mining evaluation grade was built by using the support vector machine, and the result shows that this model has high classifica- tion accuracy. 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Aiming at the problem above, large amounts of data about water inrush were collected. Then the data, including the maximum water inrush, water inrush coefficient and water abundance in aquifers of working face, were processed by the statistical analysis. The analysis results indicate that both water inrush coefficient and water abundance in aquifers should be taken into consideration when evaluating the danger of water inrush from coal seam floor. The prediction model of safe-mining evaluation grade was built by using the support vector machine, and the result shows that this model has high classifica- tion accuracy. 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Aiming at the problem above, large amounts of data about water inrush were collected. Then the data, including the maximum water inrush, water inrush coefficient and water abundance in aquifers of working face, were processed by the statistical analysis. The analysis results indicate that both water inrush coefficient and water abundance in aquifers should be taken into consideration when evaluating the danger of water inrush from coal seam floor. The prediction model of safe-mining evaluation grade was built by using the support vector machine, and the result shows that this model has high classifica- tion accuracy. A feasible classification system of water-inrush safety evaluation can be got by using the data visualization method which makes the implicit support vector machine models explicit.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.ijmst.2014.03.028</doi><tpages>5</tpages></addata></record>
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source	Elsevier ScienceDirect Journals; Alma/SFX Local Collection
subjects	Floor water inrush Support vector machine Units-inflow Water abundance Water inrush coefficient 信息支持向量机整合煤层底板突水系数和评价等级预测模型
title	Water inrush evaluation of coal seam floor by integrating the water inrush coefficient and the information of water abundance
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