Analysis and identification for the electromagnetic ultrasonic interfacial echoes using instantaneous spectrum and artificial neural network 被引量：1

Analysis and identification for the electromagnetic ultrasonic interfacial echoes using instantaneous spectrum and artificial neural network

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摘要 The proper frequency is experimentally chosen to be the operation frequency of the electromagnetic acoustic transducer. The instantaneous amplitude, phase and frequency of the detected ultrasonic echoes from a multilayer adhesive sample of steel and rubber materials are calculated and composed to form three-dimensional instantaneous spectrum which is successful to distinguish the testing signals from different adhesive states qualitatively. Then, average instantaneous parameters in sensitive time window are picked up and used as the input eigenvectors for the BP artificial neural network. Identified results in both training and testing volumes demonstrate that the detected electromagnetic ultrasonic interracial echoes can be identified and classified automatically with the correctness ratio larger than 95%. The proper frequency is experimentally chosen to be the operation frequency of the electromagnetic acoustic transducer. The instantaneous amplitude, phase and frequency of the detected ultrasonic echoes from a multilayer adhesive sample of steel and rubber materials are calculated and composed to form three-dimensional instantaneous spectrum which is successful to distinguish the testing signals from different adhesive states qualitatively. Then, average instantaneous parameters in sensitive time window are picked up and used as the input eigenvectors for the BP artificial neural network. Identified results in both training and testing volumes demonstrate that the detected electromagnetic ultrasonic interracial echoes can be identified and classified automatically with the correctness ratio larger than 95%.

作者 SONG Weihua WANG Xiaomin LI Mingxuan

机构地区 Institute of Acoustics ~raduate School of the Chinese Academy of Sciences Beijing

出处《Chinese Journal of Acoustics》 2008年第3期222-230,共9页 声学学报（英文版）

基金 the National Natural Science Foundation of China(10234060,10574138,10474113)

分类号 O422 [理学—声学]

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参考文献14

1LU Laiyu,WANG Chenghao,ZHANG Bixing.Time-frequency analysis of the dispersive Rayleigh wave in stratified media[J].Chinese Journal of Acoustics,2006,25(4):297-309. 被引量：8
2李明轩.粘接质量超声检测研究[J].应用声学,2002,21(1):7-12. 被引量：37
3张建生,李明轩.多层粘接结构中脱粘界面的人工神经网络余弦变换谱特征识别[J].声学学报,2001,26(4):349-354. 被引量：18
4张建生,李明轩.脱粘界面超声检测信号的小波多分辨率分析与重构[J].声学学报,2001,26(3):231-238. 被引量：18
5CHEN Jimao,YU Nanting.The nondestructive testing and evaluation of adhesive structures and composite materials[]..1984
6Wang Xiaomin,Lian Guoxuan,Li Mingxuan.Analysis of the reflection spectrum in a layered medium of mismatched impedance[].Technical Acoustis.2001
7SONG Weihua,WANG Xiaomin,LI Mingxuan.Study on the denoising method for the electromagnetic ultrasonic echoes from multiple interfaces[J].Chinese Journal of Acoustics,2008,27(1):75-84. 被引量：3
8Cohen L.Time-frequency analysis:theory and applications[]..1995
9XU Boxun,BAI Xubin,YU Changqing.Seismic Exploration Techniques[]..2001
10Boashash B.Estimating and interpreting the instantaneous frequency of a signal—part 1:funda- mentals[].Proceedings of Tricomm.1992

二级参考文献29

1WANGXiaomin LIMingxuan MAOJie LIANGuoxuan.Low-frequency features of the ultrasound echo from an adhesively bonded layer-substrate structure[J].Chinese Journal of Acoustics,2005,24(1):33-43. 被引量：1
2陈彦华,李明轩.人工神经网络在超声无损检测中的应用[J].应用声学,1996,15(3):40-44. 被引量：5
3张建生.钢层下多层橡胶中界面脱粘的超声检测信号处理技术研究：博士学位论文[M].,2000..
4张建生，博士学位论文，2000年
5杨福生，小波变换的工程分析与应用，1999年
6Chen Y J，Ultrasonics，1998年，36卷，141页
7Xin Jianqiang，Ultrasonics Symposium，1994年，1133页
8Chao J，Review of Progress in Quantitative Nondestructive Evaluation，1993年，735页
9Lavrentyev A I,Rokhlin S I.Determination of elastic moduli,density,attenuation and thickness of a layer using ultrasonic spectroscopy at two angles[].The Journal of The Acoustical Society of America.1997
10Lavrentyev A I,Rokhlin S I.An ultrasonic method for determination of elastic moduli,density, attenuation and thickness of a polymer coating on a stiff plate[].Ultrasonics.2001

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1艾春安,吴安法.小波分析在固体导弹发动机壳体多层界面缺陷检测中的应用[J].无损检测,2008,30(1):26-29. 被引量：1
2陈友兴,王召巴.多界面脱粘超声检测信号处理[J].弹箭与制导学报,2004,24(S1):201-203. 被引量：3
3常宁,陈晓明,郏孙勇,李惠芳,高志奇.复合材料粘接质量定量评价研究[J].山西大学学报（自然科学版）,2011,34(3):388-391. 被引量：1
4艾春安,刘瑜,李剑,曾一平.基于经验模态分解的粘接结构缺陷定量检测[J].玻璃钢／复合材料,2012(6):3-7. 被引量：4
5李宏伟,梁磊,王雯霏,程伟,张玲.阻尼材料粘接质量超声检测试验研究[J].材料开发与应用,2013,28(6):63-66.
6杨一陵,方晖,章德,王耀俊.神经网络反演算法在超声测量单向复合纤维材料特性中的应用[J].声学学报,2004,29(5):435-439. 被引量：1
7王召巴,金永.复合材料多界面脱粘超声检测技术[J].太原师范学院学报（自然科学版）,2003,2(1):45-47. 被引量：7
8廉国选,李明轩.固体滑移界面的超声评价[J].声学学报,2005,30(1):21-25. 被引量：9
9毛捷,王小民,廉国选,李明轩.板底薄层的超声谐振检测分析[J].声学学报,2005,30(2):149-152. 被引量：15
10陈友兴,王召巴,杨斌.柔性接头的超声脱粘检测研究[J].固体火箭技术,2006,29(4):310-312. 被引量：1

同被引文献6

1SONG Weihua,WANG Xiaomin,LI Mingxuan.Study on the denoising method for the electromagnetic ultrasonic echoes from multiple interfaces[J].Chinese Journal of Acoustics,2008,27(1):75-84. 被引量：3
2陈秋颖,王小民,李明轩,毛捷.电磁声换能器的辐射声场研究[J].声学学报,2009,34(4):318-324. 被引量：10
3冷涛,李明轩,黄振俨,王小民.电磁声实验平台的研制与实验研究[J].声学学报,2009,34(5):437-444. 被引量：9
4CHEN Qiuying LENG Tao WANG Xiaomin LI Mingxuan MAO Jie.The design of electromagnetic acoustic experimental platform and the study on radiated sound field by its probe[J].Chinese Journal of Acoustics,2010,29(1):73-84. 被引量：1
5CHEN Qiuying WANG Xiaomin LI Mingxuan MAO Jie.Sound field of an electromagnetic acoustic transducer[J].Chinese Journal of Acoustics,2011,30(1):44-54. 被引量：6
6卢苇,蓝宇.电磁式大功率水下超低频声源研究[J].哈尔滨工程大学学报,2011,32(7):877-883. 被引量：6

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1李炜,陈俊芳,王腾.Prediction of the plasma distribution using an artificial neural network[J].Chinese Physics B,2009,18(6):2441-2444. 被引量：1
2YU Houquan,QU Wanli and HUANG Zailu(Dept. of Electronics and Information Eng. Huazhong University of Science and Technology Wuhan 430074)WEI Zongzhou,LEI Furong and QIANG yuming (Jinghan Logging Institution Qianjiang City, Hubei Province 433123)Receive.Temperature and pressure characteristics of ultrasonic transducer and the amplitude spectra correction of echoes[J].Chinese Journal of Acoustics,1997,16(2):144-151.
3Arash Ebrahimabadi,Mohammad Azimipour,Ali Bahreini.Prediction of roadheaders' performance using artificial neural network approaches (MLP and KOSFM)[J].Journal of Rock Mechanics and Geotechnical Engineering,2015,7(5):573-583. 被引量：11
4李轩,易维宁,王先华,吴浩宇,乔延利.瞬时光谱辐照度测量与计算[J].量子电子学报,2004,21(4):415-418. 被引量：1
5王灏,王爱科,杨青巍,丁玄同,董家齐,Sanuki H,Itoh K.HL-2A tokamak disruption forecasting based on an artificial neural network[J].Chinese Physics B,2007,16(12):3738-3741. 被引量：1
6申龙.利用神经网络模型对等离子体化学反应的预测分析[J].黑龙江科技信息,2016(15):160-161.
7Nam?k KILI?,Blent EKICI,Selim HARTOMACIOG LU.Determination of penetration depth at high velocity impact using finite element method and artificial neural network tools[J].Defence Technology（防务技术）,2015,11(2):110-122. 被引量：4
8Wang Genqiang (Depi. of Computer Sci., Guangdong Polytechnic Normal University, Guangzhou 510665) Sui Sun Cheng (Dept. of Math., Tsing Hua Univeristy, Hsinchu, Chinese Taiwan 30043).STEADY STATE SOLUTIONS OF A TOROIDAL NEURAL NETWORK VIA A MOUNTAIN PASS THEOREM[J].Annals of Differential Equations,2006,22(3):360-363.
9倪新蕾,夏元复.ARTIFICIAL NEURAL NETWORK IN MOESSBAUER SPECTROSCOPY[J].Nuclear Science and Techniques,1994,5(3):162-165.
10周秀骥.A CORRECTION TO REMOTE SENSING BY SODAR[J].Chinese Science Bulletin,1988,33(5):411-413.

Chinese Journal of Acoustics

2008年第3期

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