Affiliations: [a] School of Mechanical Electronic & Information Engineering, China University of Mining and Technology, Beijing, China
| [b] Department of Computer Engineering, Shijiazhuang University, Shijiazhuang, China
| [c] School of Foreign University, Liaocheng University, Liaocheng, China
Correspondence:
[*]
Corresponding author. Guoying Zhang, School of Mechanical Electronic & Information Engineering, China University of Mining and Technology, Beijing, China. E-mail: [email protected].
Abstract: The feature selection of influencing factors of coal and gas outbursts is of great significance for presenting the most discriminative features and improving prediction performance of a classifier, the paper presents an effective hybrid feature selection and modified outbursts classifier framework which aims at solving exiting coal and gas outbursts prediction problems. First, a measurement standard based on maximum information coefficient(MIC) is employed to identify the wide correlations between two variables; Second, based on a ranking procedure using non-dominated sorting genetic algorithm(NSGAII), maximum relevance minimum redundancy(MRMR) algorithm is subsequently performed to find out candidate feature set highly related to the class label and uncorrelated with each other; Third, random forest(RF) is employed to search the optimal feature subset from the candidate feature set, then the optimal feature subset that influences the classification performance of coal and gas outbursts is obtained; Finally, an improved classifier model has been proposed that combines gradient boosting decision tree(GBDT) and k-nearest neighbor(KNN) for outbursts prediction. In the modified classifier model, the GBDT is utilized to assign different weights to features, then the weighted features are input into the KNN to verify the effectiveness of proposed method on coal and gas outbursts dataset. The experimental results conclude that our proposed scheme is effective in the number of feature and prediction accuracy when compared with other related state-of-the-art prediction models based on feature selection for coal and gas outbursts.
Keywords: Coal and gas outbursts, Maximum information coefficient, Non-dominated sorting
genetic algorithm, Maximum relevance minimum redundancy, Random forest, Gradient boosting decision
tree, K-nearest neighbor
