Abstract
Water inrush hazards can be effectively reduced by a reasonable and accurate soft-measuring method on the water inrush quantity from the mine floor. This is quite important for safe mining. However, there is a highly nonlinear relationship between the water outburst from coal seam floors and geological structure, hydrogeology, aquifer, water pressure, water-resisting strata, mining damage, fault and other factors. Therefore, it is difficult to establish a suitable model by traditional methods to forecast the water inrush quantity from the mine floor. Modeling methods developed in other fields can provide adequate models for rock behavior on water inrush. In this study, a new forecast system, which is based on a hybrid genetic algorithm (GA) with the support vector machine (SVM) algorithm, a model structure and the related parameters are proposed simultaneously on water inrush prediction. With the advantages of powerful global optimization functions, implicit parallelism and high stability of the GA, the penalty coefficient, insensitivity coefficient and kernel function parameter of the SVM model are determined as approximately optimal automatically in the spatial dimension. All of these characteristics greatly improve the accuracy and usable range of the SVM model. Testing results show that GA has a useful ability in finding optimal parameters of a SVM model. The performance of the GA optimized SVM (GA-SVM) is superior to the SVM model. The GA-SVM enables the prediction of water inrush and provides a promising solution to the predictive problem for relevant industries.
Highlights
Water seepage causes constant difficulties in underground mining and creates a range of unstable operation problems
One aspect of genetic algorithm (GA) applied to support vector machine (SVM) optimization was to optimize the structure of SVM
It is difficult to establish a suitable model by traditional methods forecast the water inrush quantity from mine floor
Summary
Water seepage causes constant difficulties in underground mining and creates a range of unstable operation problems. Handling, pumping, treatment and the disposal of mine water are serious problems in the observed situation [1]. Safe mining production of coal is improved with the development of science and technology. In developed countries, such as the United States, only a very few of water inrush accidents occurred with the application of the dewatering technique in mining [3]. More than 90% of the water inrush accidents in China occurred due to the water inflow from karst aquifers through coal seam floors [4].
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