Separation of elasto acoustic scattering of underwater target

Xia Zhi; Li Xiu-Kun

doi:10.7498/aps.64.094302

Abstract

An elastic acoustic scattering by underwater target could be mixed with other acoustic scattering components in both time and frequency domains, and the existing signal processing methods could not discriminate the elastic feature of target in the mixed status. For solving this problem, a signal separation method for elastic acoustic scattering is proposed. Based on the highlight model of target echo, the characters of the target acoustic scattering signal when the linear frequency modulation signal is transmitted, are analyzed, and a method for mapping the acoustic scattering signal of the target to a single frequency signal is proposed. Theoretical derivation shows that there is a simple linear relationship between the acoustic scattering structure of the target and the mapped result, then the elastic acoustic scattering signal of the target can be separated by a narrow-band filtering. Simulation results show that the correlation coefficient between the separated target acoustic scattering and the orginal simulation signals are about 0.99, indicating that the acoustic scattering components in the simulation target echo can be wholly separated. Experimental data-processing results of the target acoustic scattering measureflent in an anechoic pool show that the mid-frequency enhancement effect can be observed in the spectrum of the separated elastic acoustic scattering, and every target acoustic scattering component can be recognized on the time-frequency distribution of separately processed target echo. There is a bowl-shape interference fringe on the angle-spectrum of the separated target elastic acoustic scattering components which is consistent with the theoretical signal’s feature of the elastic acoustic scattering, and the effectiveness of the separation method proposed is proven.

Keywords:

Authors and contacts

Xia Zhi,
Li Xiu-Kun

1.
Acoustic Science and Technology Laboratory, Harbin Engineering University, Harbin 150001, China;
2.
College of Underwater Acoustic Engineering, Harbin Engineering University, Harbin 150001, China
Funds: Project supported by the National Natural Science Foundation of China (Grant No. 51279033), and the Natural Science Foundation of Heilongjiang Province, China(Grant No. F201346).

References

[1]	Pan A, Fan J, Zhuo L K 2013 Acta Phys. Sin. 62 24301 (in Chinese) [潘安, 范军, 卓琳凯 2013 物理学报 62 24301]
[2]	Pan A, Fan J, Zhuo L K 2012 Acta Phys. Sin. 61 214301 (in Chinese) [潘安, 范军, 卓琳凯 2012 物理学报 61 214301]
[3]	Li L, Wen J H, Cai L, Zhao H G, Wen X S 2013 Chin. Phys. B 22 014301
[4]	Ying Y Z, Ma L, Guo S M 2011 Chin. Phys. B 20 054301
[5]	Cite N, Chati F, Decultot D, Leon F, Maze G 2012 J. Acoustic Soc. Am. 131 4233
[6]	Marston P L, Sun N H 1992 J. Acoustic Soc. Am. 92 3315
[7]	Zhang L G, Sun N H, Marston P L 1992 J. Acoustic Soc. Am. 91 1862
[8]	Marston P L, Sun N H 1995 J. Acoustic Soc. Am. 97 777
[9]	Bao X L 1993 J. Acoustic Soc. Am. 94 1461
[10]	Morse S F, Marston P L, Kaduchak G 1998 J. Acoustic Soc. Am. 103 785
[11]	Bucaro J, Simpson H, Kraus L, Dragonette L, Yoder T, Houston B 2009 J. Acoustic Soc. Am. 126 2315
[12]	Anderson S D, Sabra K G, Zakharia M E, Sessarego J P 2012 J. Acoustic Soc. Am. 131 164
[13]	Bucaro J, Houston B, Saniga M, Dragonette L, Yoder T, Dey S, Kraus L, Carin L 2008 J. Acoustic Soc. Am. 123 738
[14]	Waters Z, Simpson H, Sarkissian A, Dey S, Houston B, Bucaro J, Yoder T 2012 J. Acoustic Soc. Am. 132 3076
[15]	Bucaro J A, Waters Z J, Houston B H, Simpson H J, Sarkissian A, Dey S, Yoder T J 2012 J. Acoustic Soc. Am. 132 3614
[16]	Decultot D, Lietard R, Maze G 2010 J. Acoustic Soc. Am. 127 1328
[17]	Sabra K G, Anderson S D 2014 J. Acoustic Soc. Am. 135 2821
[18]	Tang W L 1994 Acta Acustica 19 92 (in Chinese) [汤渭霖 1994 声学学报 19 92]

Cited By

[1]	Pan A, Fan J, Zhuo L K 2013 Acta Phys. Sin. 62 24301 (in Chinese) [潘安, 范军, 卓琳凯 2013 物理学报 62 24301]
[2]	Pan A, Fan J, Zhuo L K 2012 Acta Phys. Sin. 61 214301 (in Chinese) [潘安, 范军, 卓琳凯 2012 物理学报 61 214301]
[3]	Li L, Wen J H, Cai L, Zhao H G, Wen X S 2013 Chin. Phys. B 22 014301
[4]	Ying Y Z, Ma L, Guo S M 2011 Chin. Phys. B 20 054301
[5]	Cite N, Chati F, Decultot D, Leon F, Maze G 2012 J. Acoustic Soc. Am. 131 4233
[6]	Marston P L, Sun N H 1992 J. Acoustic Soc. Am. 92 3315
[7]	Zhang L G, Sun N H, Marston P L 1992 J. Acoustic Soc. Am. 91 1862
[8]	Marston P L, Sun N H 1995 J. Acoustic Soc. Am. 97 777
[9]	Bao X L 1993 J. Acoustic Soc. Am. 94 1461
[10]	Morse S F, Marston P L, Kaduchak G 1998 J. Acoustic Soc. Am. 103 785
[11]	Bucaro J, Simpson H, Kraus L, Dragonette L, Yoder T, Houston B 2009 J. Acoustic Soc. Am. 126 2315
[12]	Anderson S D, Sabra K G, Zakharia M E, Sessarego J P 2012 J. Acoustic Soc. Am. 131 164
[13]	Bucaro J, Houston B, Saniga M, Dragonette L, Yoder T, Dey S, Kraus L, Carin L 2008 J. Acoustic Soc. Am. 123 738
[14]	Waters Z, Simpson H, Sarkissian A, Dey S, Houston B, Bucaro J, Yoder T 2012 J. Acoustic Soc. Am. 132 3076
[15]	Bucaro J A, Waters Z J, Houston B H, Simpson H J, Sarkissian A, Dey S, Yoder T J 2012 J. Acoustic Soc. Am. 132 3614
[16]	Decultot D, Lietard R, Maze G 2010 J. Acoustic Soc. Am. 127 1328
[17]	Sabra K G, Anderson S D 2014 J. Acoustic Soc. Am. 135 2821
[18]	Tang W L 1994 Acta Acustica 19 92 (in Chinese) [汤渭霖 1994 声学学报 19 92]

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