A novel low-velocity impact region identification method for cantilever beams using a support vector machine
Damage induced by a low-velocity impact can reduce the stability and reliability of structures. In this study, a novel low-velocity impact region identification method based on the spectral peak frequency (SPF) and support vector machine (SVM) is proposed to identify the low-velocity impact regions...
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sg-ntu-dr.10356-1645582023-02-01T02:48:17Z A novel low-velocity impact region identification method for cantilever beams using a support vector machine Wang, Fengde Kang, Yongtian Xiao, Wensheng Li, Changjiang Liu, Qi School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Fiber Bragg Grating Sensors Frequency Vector Damage induced by a low-velocity impact can reduce the stability and reliability of structures. In this study, a novel low-velocity impact region identification method based on the spectral peak frequency (SPF) and support vector machine (SVM) is proposed to identify the low-velocity impact regions on a steel cantilever beam. A low-velocity impact region identification system of the cantilever beam is established by applying fiber Bragg grating (FBG) sensors, and only 2 sensors are used in this system. The power spectral density functions of the impact response signal are smoothed using the linear weighting method to remove pseudospectral peak frequencies, and then, SPFs are extracted as the features. For 25 low-velocity impact regions with dimensions of 30 mm × 10 mm, the results show that the recognition rate obtained by the proposed method is 100% and the feature vector consisting of the first two SPFs with the largest amplitude has the highest recognition rate. Through the comparative study, it is found that the recognition rate of SVM is higher than that of the probabilistic neural network (PNN) and extreme learning machine (ELM) for low-velocity impact area recognition of cantilever beams. As a result, the low-velocity impact region identification method of this paper can be applied to the real-time health monitoring of cantilever beam structures. Published version This work was supported in part by the project from the Ministry of Industry and Information Technology of China under Grant CJ09N20, 2019GXB01-01-001. 2023-02-01T02:48:16Z 2023-02-01T02:48:16Z 2022 Journal Article Wang, F., Kang, Y., Xiao, W., Li, C. & Liu, Q. (2022). A novel low-velocity impact region identification method for cantilever beams using a support vector machine. Mathematical Problems in Engineering, 2022, 2906535-. https://dx.doi.org/10.1155/2022/2906535 1024-123X https://hdl.handle.net/10356/164558 10.1155/2022/2906535 2-s2.0-85140096888 2022 2906535 en Mathematical Problems in Engineering © 2022 Fengde Wang et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering::Mechanical engineering Fiber Bragg Grating Sensors Frequency Vector Wang, Fengde Kang, Yongtian Xiao, Wensheng Li, Changjiang Liu, Qi A novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| description |
Damage induced by a low-velocity impact can reduce the stability and reliability of structures. In this study, a novel low-velocity impact region identification method based on the spectral peak frequency (SPF) and support vector machine (SVM) is proposed to identify the low-velocity impact regions on a steel cantilever beam. A low-velocity impact region identification system of the cantilever beam is established by applying fiber Bragg grating (FBG) sensors, and only 2 sensors are used in this system. The power spectral density functions of the impact response signal are smoothed using the linear weighting method to remove pseudospectral peak frequencies, and then, SPFs are extracted as the features. For 25 low-velocity impact regions with dimensions of 30 mm × 10 mm, the results show that the recognition rate obtained by the proposed method is 100% and the feature vector consisting of the first two SPFs with the largest amplitude has the highest recognition rate. Through the comparative study, it is found that the recognition rate of SVM is higher than that of the probabilistic neural network (PNN) and extreme learning machine (ELM) for low-velocity impact area recognition of cantilever beams. As a result, the low-velocity impact region identification method of this paper can be applied to the real-time health monitoring of cantilever beam structures. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wang, Fengde Kang, Yongtian Xiao, Wensheng Li, Changjiang Liu, Qi |
| format |
Article |
| author |
Wang, Fengde Kang, Yongtian Xiao, Wensheng Li, Changjiang Liu, Qi |
| author_sort |
Wang, Fengde |
| title |
A novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| title_short |
A novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| title_full |
A novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| title_fullStr |
A novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| title_full_unstemmed |
A novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| title_sort |
novel low-velocity impact region identification method for cantilever beams using a support vector machine |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164558 |
| _version_ |
1757048213370568704 |