Experimental study of acoustic resonance technology for nonmetallic mines detection

• Autorzy: Mao X. , Li G.-Q. , Wang C. , Ding W.

Warianty tytułu

PL

Eksperymentalne potwierdzenie możliwości detekcji min niemetalicznych metodą rezonansu akustycznego

• Języki publikacji: EN

Abstrakty

EN

An outdoor experimental system was designed to investigate the acoustic resonance method for non-metallic landmines detection. Firstly, the principle of acoustic-to-seismic coupling and its application in mines detection were overviewed. Then, the design process and experimental design of the system were discussed in details. Finally, experiments were performed with an antitank plastic coach mine. The results show that the buried mine can resonate at frequencies from 300 to 430Hz.

PL

Przedstawiono możliwości wykorzystania metody rezonansu akustycznego do wykrywania min niemetalicznych. Przedstawiono projekt systemu oraz dane eksperymentalne.

Słowa kluczowe

EN

acoustic resonant; mine detection; coupling

PL

rezonans; wykrywanie min; metoda rezonansu akustycznego

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2012
• Tom: R. 88, nr 9b
• Strony: 162--165
• Opis fizyczny: Bibliogr. 12 poz., rys., wykr.

Twórcy

autor

Mao X.

• University College of Mechatronics Engineering,Henan University of Science & Technology, Luoyang, China

autor

Li G.-Q.

• University College of Mechatronics Engineering,Henan University of Science & Technology, Luoyang, China

autor

Wang C.

• Department of Precision Mechanical Engineering, Shanghai University, Shanghai, China

autor

Ding W.

• Department of Precision Mechanical Engineering, Shanghai University, Shanghai, China

Bibliografia

• [1] Sabatier J. M., Xiang N.. An investigation of acoustic-to-seismic coupling to detect buried antitank landmines. IEEE transactions on geoscience and remote sensing, 39(2001),No. 6,1146-1154.
• [2] Xiang N., Sabatier J. M.. An experimental study on antipersonnel landmine detection using acoustic-to-seismic coupling. J. Acoust. Soc. Am., 113(2003), No.3, 1333-1341.
• [3] D. Donskoy, A. Ekimov, N. Sedunov, Tsionskiy M.. Nonlinear seismo-acoustic land mine detection and discrimination. J. Acoust. Soc.Am., 111(2002), No.6,2705-2714.
• [4] D. Donskoy, A. Reznik, A. Zagrai, A. Ekimov. Nonlinear vibrations of buried land mines. J. Acoust. Soc. Am. 117(2005), No.2, 690-700
• [5] S. H. Yu, G. Avinash, R. W. Thomas, K. M. Raman. Physically based method for automatic mine detection using acoustic data a transmission zero approach. In proceedings of SPIE, detection and remediation technologies for mines and minelike targets VII, 4742(2002), 701-708.
• [6] A. Zagrai, D. Donskoy, A. Ekimov. Structural vibrations of buried land mines. J. Acoust. Soc. Am., 118(2005), No.6, 3619-3628
• [7] Wang Chi., Liu Zhigang, Li Xingfei, et al.. Analysis of acoustic to seismic coupling technique for buried landmines detection. ACTA ACUSTICA, 33(2008), No.4, 354-359
• [8] Wang Chi., Liu Zhigang, Li Xingfei, et al.. Technology for acoustic landmine detection based on relative acoustic-toseismic coupling ratio. Journal of Tianjin University, 41(2008), No.6, 745-750
• [9] Wang Chi., Li Xingfei, Yu Yingjie, et al.. Analysis of soil-mine resonance model. Acta Physica Sinica, 59(2010),No.9, 6319-6325
• [10] Wang Chi, YU Yingjie, Li Xingfei. An acoustic-to-seismic coupling based landmines detection system in lab-scale experimental environment. Journal of Tianjin University, 44(2011) , No.1, 79-84
• [11] Wang Chi, Li Xingfei, Fu Juan, et al.. Acoustic landmine detection and its signal processing method. Optics and Precision Engineering, 16(2008) , No.9,1716-1721
• [12] J. M. Sabatier, H. E. Bass, L. N. Bolen. Acoustically induced seismic waves. J. Acoust. Soc. Am., 80(1986) , No. 2, 646-649