Multi-layer time-frequency domain information fusion framework: A coal gangue identification method based on three-axis vibration signal

Abstract

During the process of top coal caving, sensors are used at the coal discharge outlet to identify coal and gangue, which can enhance the mining efficiency and ensure the safety of personnel. Due to the extremely poor visual and auditory conditions in the underground environment, vibration signal monitoring technology has been introduced into the coal gangue identification task. This study focuses on three-axis vibration signals as the research object, aiming to fully explore the potential information of three-axis vibration signals and improve the reasoning ability of the model by integrating the multi-layer time-frequency information of three-axis vibration signals. A preprocessing module for vibration signals has been designed. This module achieves fine denoising by performing different denoising processes on each component after modal decomposition. Given the shortcomings of traditional wavelet thresholding, this study designs an optimized wavelet threshold function. A multi-layer time-frequency information fusion framework for coal gangue identification is proposed. This framework integrates information in different ways at the data layer, feature layer and decision layer, ultimately achieving an accuracy of 95.50%. The proposed identification framework can provide a design basis for the subsequent end-to-end model design based on neural networks and enhance the interpretability of the design process. Moreover, this study opens up a new path for coal gangue identification based on three-axis vibration information and lays a solid foundation for the exploration of multi-modal fusion technologies in the future.

Keywords

top coal caving coal gangue identification three-axis vibration information multi-layer information fusion time-frequency fusion

Get full access to this article

View all access options for this article.

References

Chong

Zhou

Zhang

, et al. LMDI decomposition of coal consumption in China based on the energy allocation diagram of coal flows: an update for 2005–2020 with improved sectoral resolutions. Energy 2023; 285: 129266.

Cheng

Liu

. Study on the mechanism of a new fully mechanical mining method for extremely thick coal seam. Int J Rock Mech Min Sci 2021; 142: 104788.

Zhang

Cheng

Lei

, et al. Research on the law of top coal movement and influence factors of coal caving ratio for fully mechanized top coal caving working face. Energies 2025; 18(16): 4312.

Guo

, et al. Dual-energy X-ray transmission identification method for coal and gangue with different thicknesses and densities. Measurement 2024; 225: 113718.

Zhang

Liu

Zhu

, et al. Precise detection of coal and gangue based on natural γ-ray. Sci Rep 2024; 14(1): 1276.

Wang

Zhao

Yue

, et al. An improved cross algorithm edge detection method and its application in coal gangue identification. Int J Coal Preparation Util 2026; 46(3): 835–847.

Zhao

Wang

Cheng

, et al. Study on coal and gangue recognition method based on the combination of X-ray transmission and diffraction principle. Energy Sources Part A Recov Util Environ Eff 2022; 44(4): 9716–9728.

, et al. Spectroscopy identification method and system for coal and gangue based on multilocation feature fusion. Int J Coal Preparation Util 2024; 44(8): 993–1016.

Sui

Zhang

Sun

, et al. Research on coal and rock recognition in coal mining based on artificial neural network models. Appl Sci 2024; 14(2): 864.

10.

, et al. Hybrid connected attentional lightweight network for gangue intelligent segmentation in top-coal caving face. J Intell Fuzzy Syst 2023; 44(3): 5033–5044.

11.

Jiang

Zong

Song

, et al. Coal-gangue recognition via multi-branch convolutional neural network based on MFCC in noisy environment. Sci Rep 2023; 13(1): 6541.

12.

Zhang

Wang

Wei

. Collector-assisted efficient coal/gangue recognition based on liquid intervention in longwall top coal caving. Int J Coal Preparation Util 2023; 43(12): 2065–2090.

13.

Zhang

, et al. Wind speed effect on infrared-image-based coal and gangue recognition with liquid intervention in LTCC. J Clean Prod 2024; 478: 143925.

14.

Zhang

Tao

. An efficient method for recognition of coal/gangue with thermal imaging technique. Int J Coal Preparation Util 2023; 43(10): 1665–1678.

15.

Yang

Zhang

Zeng

. Research on coal gangue recognition based on multi-layer time domain feature processing and recognition features cross-optimal fusion. Measurement 2022; 204: 112169.

16.

Zhang

Yang

, et al. Performance analysis of coal gangue recognition based on hierarchical filtering and coupled wrapper feature selection method. IEEE Access 2023; 11: 85822–85835.

17.

Wang

, et al. A novel coal-gangue recognition method for top coal caving face based on IALO-VMD and improved MobileNetV2 network. IEEE Trans Instrum Meas 2023; 72: 1–16.

18.

Xia

, et al. Integrated acoustic-vibration analysis: a dual-channel fusion prediction method is used for coal gangue identification in top coal caving. Meas Sci Technol 2025; 36(8): 085101.

19.

Pandey

Sharma

Shikhola

. A novel hybrid framework for wind speed prediction using decomposition and gated recurrent unit networks. J Atmos Sol Phys 2026; 282: 106799.

20.

Liu

Lang

, et al. Selective noise empirical mode decomposition. IEEE Signal Process Lett 2025; 32: 2823–2827.

21.

Deng

Yang

. A multi-factor combined traffic flow prediction model with secondary decomposition and improved entropy weight method. Expert Syst Appl 2024; 255: 124424.

22.

Zhao

Gao

Huang

, et al. Wavelet denoising correlation for satellite signals based on improved wavelet threshold. Electronics 2025; 15(1): 54.

23.

Vardakas

Likas

. Global k-means++: an effective relaxation of the global k-means clustering algorithm. Appl Intell 2024; 54(19): 8876–8888.

24.

Cheng

Wang

, et al. Mutual information-guided causal feature selection method for quality prediction of complex products. Reliab Eng Syst Saf 2026; 272: 112536.

25.

Yuan

Chen

, et al. A two-stage method for identifying key factors affecting the oscillation hosting capacity of renewable energy systems using participation factors and XGBoost. Electronics 2026; 15(3): 614.

26.

Yang

Mercaldo

, et al. Isolation forest-voting fusion-multioutput: a stroke risk classification method based on the multidimensional output of abnormal sample detection. Comput Methods Programs Biomed 2024; 253: 108255.

27.

Zhang

Lin

. A supervised learning approach to dynamic weighted fusion in multi-source ordered decision systems. Knowl Syst 2025; 330: 114485.

28.

Altalbe

. Enhanced intrusion detection in in-vehicle networks using advanced feature fusion and stacking-enriched learning. IEEE Access 2024; 12: 2045–2056.

29.

Xia

Kang

, et al. Underground coal gangue recognition based on composite fusion of feature and decision. Meas Sci Technol 2024; 35(11): 116006.