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Neural Computing and Applications

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13-09-2019 | Deep Learning & Neural Computing for Intelligent Sensing and Control

Recognition and prediction of ground vibration signal based on machine learning algorithm

Authors: Zhicheng Zhong, Hongqin Li

Published in: Neural Computing and Applications | Issue 7/2020

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Abstract

Accurate recognition of the type of ground motion is a basic task in the field of seismic engineering. In this paper, the key technologies of detection and recognition of underground seismic signal are studied. The target recognition algorithm is designed to realize the target recognition through denoising the collected target signal and extracting the characteristic quantity. Considering that ground motion signals generated by moving targets on the ground are susceptible to environmental noise, this paper introduces the working principle of wavelet packet denoising and its support vector machine classification model. Wavelet packet was used to transform the signal to denoise first, then zero-crossing rate analysis of the denoised signal was carried out after wavelet packet denoising and extracts the parameters, and the energy of cross-correlation criteria was selected finally. Quantitative indices are combined to construct multi-feature vectors, which are used as input of multi-class support vector machine for training and prediction. In this model, the optimal parameters of support vector machine model are found by genetic algorithm parameter optimization. The experimental results show that the improved model can recognize and classify the ground motion signals caused by people and vehicles correctly and can improve the performance of the classifier.

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Meier MA, Ross ZE, Ramachandran A, Balakrishna A, Nair S, Kundzicz P, Yue Y (2019) Reliable real-time seismic signal/noise discrimination with machine learning. J Geophys Res Solid Earth 124(1):788–800CrossRef

Douglas J, Edwards B (2016) Recent and future developments in earthquake ground motion estimation. Earth Sci Rev 160:203–219CrossRef

Liu X, Li Y, Wang Q (2018) Multi-view hierarchical bidirectional recurrent neural network for depth video sequence based action recognition. Int J Pattern Recognit Artif Intell 32(10):1850033CrossRef

Lin GW, Hung C, Syu HS (2019) Evaluation of an enhanced FS method for finding the initiation time of earthquake-induced landslides. Bull Eng Geol Env 78(1):497–506CrossRef

Zhou F, Gan J, Lv H, Cui L (2018) Application of wavelet analysis in underground embedded distributed optical fiber vibration monitoring system. In IOP conference series: earth and environmental science, vol 189, no 3, p 032025, IOP Publishing

Thanasopoulos I, Avaritsiotis J (2011) Wavelet analysis of short range seismic signals for accurate time of arrival estimation in dispersive environments. IET Sci Meas Technol 5(4):125–133CrossRef

Zhang Y, Chen J, Sun C (2017) Damage-based strength reduction factor for nonlinear structures subjected to sequence-type ground motions. Soil Dyn Earthq Eng 92:298–311CrossRef

Wang G, Wang Y, Lu W, Yan P, Zhou W, Chen M (2017) Damage demand assessment of mainshock-damaged concrete gravity dams subjected to aftershocks. Soil Dyn Earthq Eng 98:141–154CrossRef

Zhu L, Liu E, McClellan JH (2017) Joint seismic data denoising and interpolation with double-sparsity dictionary learning. J Geophys Eng 14(4):802–810CrossRef

10.

Mousavi SM, Langston CA (2016) Hybrid seismic denoising using higher-order statistics and improved wavelet block thresholding. Bull Seismol Soc Am 106(4):1380–1393CrossRef

11.

Mousavi SM, Langston CA (2017) Automatic noise-removal/signal-removal based on general cross-validation thresholding in synchrosqueezed domain and its application on earthquake data. Geophysics 82(4):V211–V227CrossRef

12.

Zhang J, Jiang Q, Ma B, Zhao Y, Zhu L (2017) Signal de-noising method for vibration signal of flood discharge structure based on combined wavelet and EMD. J Vib Control 23(15):2401–2417CrossRef

13.

Maggi A, Ferrazzini V, Hibert C, Beauducel F, Boissier P, Amemoutou A (2017) Implementation of a multistation approach for automated event classification at Piton de la Fournaise volcano. Seismol Res Lett 88(3):878–891CrossRef

14.

Islam MS, Chong U (2015) Improvement in moving target detection based on Hough transform and wavelet. IETE Tech Rev 32(1):46–51CrossRef

15.

Nabian MA, Meidani H (2018) Deep learning for accelerated seismic reliability analysis of transportation networks. Comput Aid Civil Infrastruct Eng 33(6):443–458CrossRef

16.

Giudicepietro F, Esposito AM, Ricciolino P (2017) Fast discrimination of local earthquakes using a neural approach. Seismol Res Lett 88(4):1089–1096CrossRef

17.

Khandelwal M, Kankar PK, Harsha SP (2010) Evaluation and prediction of blast induced ground vibration using support vector machine. Min Sci Technol China 20(1):64–70CrossRef

18.

Mazzotti A, Bienati N, Stucchi E, Tognarelli A, Aleardi M, Sajeva A (2016) Two-grid genetic algorithm full-waveform inversion. Lead Edge 35(12):1068–1075CrossRef

19.

Asgari S, Stafsudd JZ, Hudson RE, Yao K, Taciroglu E (2015) Moving source localization using seismic signal processing. J Sound Vib 335:384–396CrossRef

20.

Wu Q, Wang L, Zhu Z (2017) Research of pre-stack AVO elastic parameter inversion problem based on hybrid genetic algorithm. Cluster Comput 20(4):3173–3183CrossRef

21.

Ghaffarzadeh H (2016) A classification method for pulse-like ground motions based on S-transform. Nat Hazards 84(1):335–350CrossRef

22.

Thomas S, Pillai GN, Pal K, Jagtap P (2016) Prediction of ground motion parameters using randomized ANFIS (RANFIS). Appl Soft Comput 100(40):624–634CrossRef

23.

McBrearty IW, Delorey AA, Johnson PA (2019) Pairwise association of seismic arrivals with convolutional neural networks. Seismol Res Lett 90(2A):503–509CrossRef

24.

Saad OM, Inoue K, Shalaby A, Samy L, Sayed MS (2018) Automatic arrival time detection for earthquakes based on stacked denoising autoencoder. IEEE Geosci Remote Sens Lett 15(11):1687–1691CrossRef

25.

Jia Y, Ma J (2017) What can machine learning do for seismic data processing? An interpolation application. Geophysics 82(3):V163–V177CrossRef

26.

Kirbas I, Peker M (2017) Signal detection based on empirical mode decomposition and Teager–Kaiser energy operator and its application to P and S wave arrival time detection in seismic signal analysis. Neural Comput Appl 28:3035. https://doi.org/10.1007/s00521-016-2333-5 CrossRef

27.

Xiao F (2019) Multi-Sensor data fusion based on the belief divergence measure of evidences and the belief entropy. Inform Fusion 46:23–32CrossRef

Title: Recognition and prediction of ground vibration signal based on machine learning algorithm
Authors: Zhicheng Zhong
Hongqin Li
Publication date: 13-09-2019
Publisher: Springer London
Published in: Neural Computing and Applications / Issue 7/2020
Print ISSN: 0941-0643
Electronic ISSN: 1433-3058
DOI: https://doi.org/10.1007/s00521-019-04496-z

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