Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm
As the conventional cutting pattern recognition methods for shearer are huge in size, have low recognition reliability and an inconvenient contacting measurement method, a fast and reliable coal-rock cutting pattern recognition system is always a baffling problem worldwide. However, the recognition...
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2016-10-01
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| Series: | Applied Sciences |
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| Online Access: | http://www.mdpi.com/2076-3417/6/10/294 |
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doaj-77a5f5cd126946ba8af13f3b0c1c280e2020-11-24T21:56:32ZengMDPI AGApplied Sciences2076-34172016-10-0161029410.3390/app6100294app6100294Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization AlgorithmJing Xu0Zhongbin Wang1Jiabiao Wang2Chao Tan3Lin Zhang4Xinhua Liu5School of Mechatronic Engineering, China University of Mining & Technology, No.1 Daxue Road, Xuzhou 221116, ChinaSchool of Mechatronic Engineering, China University of Mining & Technology, No.1 Daxue Road, Xuzhou 221116, ChinaSchool of Mechatronic Engineering, China University of Mining & Technology, No.1 Daxue Road, Xuzhou 221116, ChinaSchool of Mechatronic Engineering, China University of Mining & Technology, No.1 Daxue Road, Xuzhou 221116, ChinaSchool of Mechatronic Engineering, China University of Mining & Technology, No.1 Daxue Road, Xuzhou 221116, ChinaSchool of Mechatronic Engineering, China University of Mining & Technology, No.1 Daxue Road, Xuzhou 221116, ChinaAs the conventional cutting pattern recognition methods for shearer are huge in size, have low recognition reliability and an inconvenient contacting measurement method, a fast and reliable coal-rock cutting pattern recognition system is always a baffling problem worldwide. However, the recognition rate has a direct relation with the outputs of coal mining and the safety quality of staff. In this paper, a novel cutting pattern identification method through the cutting acoustic signal of the shearer is proposed. The signal is clustering by fuzzy C-means (FCM) and a hybrid optimization algorithm, combining the fruit fly and genetic optimization algorithm (FGOA). Firstly, an industrial microphone is installed on the shearer and the acoustic signal is collected as the source signal due to its obvious advantages of compact size, non-contact measurement and ease of remote transmission. The original sound is decomposed by multi-resolution wavelet packet transform (WPT), and the normalized energy of each node is extracted as a feature vector. Then, FGOA, by introducing a genetic proportion coefficient into the basic fruit fly optimization algorithm (FOA), is applied to overcome the disadvantages of being time-consuming and sensitivity to initial centroids of the traditional FCM. A simulation example, with the accuracy of 95%, and some comparisons prove the effectiveness and superiority of the proposed scheme. Finally, an industrial test validates the practical effect.http://www.mdpi.com/2076-3417/6/10/294cutting pattern recognitionacoustic signalfuzzy C-means clusteringhybrid optimizationfruit fly optimization algorithmgenetic algorithmgenetic proportion coefficient |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Jing Xu Zhongbin Wang Jiabiao Wang Chao Tan Lin Zhang Xinhua Liu |
| spellingShingle |
Jing Xu Zhongbin Wang Jiabiao Wang Chao Tan Lin Zhang Xinhua Liu Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm Applied Sciences cutting pattern recognition acoustic signal fuzzy C-means clustering hybrid optimization fruit fly optimization algorithm genetic algorithm genetic proportion coefficient |
| author_facet |
Jing Xu Zhongbin Wang Jiabiao Wang Chao Tan Lin Zhang Xinhua Liu |
| author_sort |
Jing Xu |
| title |
Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm |
| title_short |
Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm |
| title_full |
Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm |
| title_fullStr |
Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm |
| title_full_unstemmed |
Acoustic-Based Cutting Pattern Recognition for Shearer through Fuzzy C-Means and a Hybrid Optimization Algorithm |
| title_sort |
acoustic-based cutting pattern recognition for shearer through fuzzy c-means and a hybrid optimization algorithm |
| publisher |
MDPI AG |
| series |
Applied Sciences |
| issn |
2076-3417 |
| publishDate |
2016-10-01 |
| description |
As the conventional cutting pattern recognition methods for shearer are huge in size, have low recognition reliability and an inconvenient contacting measurement method, a fast and reliable coal-rock cutting pattern recognition system is always a baffling problem worldwide. However, the recognition rate has a direct relation with the outputs of coal mining and the safety quality of staff. In this paper, a novel cutting pattern identification method through the cutting acoustic signal of the shearer is proposed. The signal is clustering by fuzzy C-means (FCM) and a hybrid optimization algorithm, combining the fruit fly and genetic optimization algorithm (FGOA). Firstly, an industrial microphone is installed on the shearer and the acoustic signal is collected as the source signal due to its obvious advantages of compact size, non-contact measurement and ease of remote transmission. The original sound is decomposed by multi-resolution wavelet packet transform (WPT), and the normalized energy of each node is extracted as a feature vector. Then, FGOA, by introducing a genetic proportion coefficient into the basic fruit fly optimization algorithm (FOA), is applied to overcome the disadvantages of being time-consuming and sensitivity to initial centroids of the traditional FCM. A simulation example, with the accuracy of 95%, and some comparisons prove the effectiveness and superiority of the proposed scheme. Finally, an industrial test validates the practical effect. |
| topic |
cutting pattern recognition acoustic signal fuzzy C-means clustering hybrid optimization fruit fly optimization algorithm genetic algorithm genetic proportion coefficient |
| url |
http://www.mdpi.com/2076-3417/6/10/294 |
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