[1] An Liang, Fang Shiliang, Chen Lijun,. Models for amplitude fluctuation of underwater acousticnarrow band signal based on modified modal scintillation index [J]. Journal of Southeast University (English Edition), 2013, 29 (3): 235-241. [doi:10.3969/j.issn.1003-7985.2013.03.002]
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Models for amplitude fluctuation of underwater acousticnarrow band signal based on modified modal scintillation index(
)
)Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]
- Volumn:
- 29
- Issue:
- 2013 3
- Page:
- 235-241
- Research Field:
- Mathematics, Physics, Mechanics
- Publishing date:
- 2013-09-20
Info
- Title:
- Models for amplitude fluctuation of underwater acousticnarrow band signal based on modified modal scintillation index
- Author(s):
- An Liang; Fang Shiliang; Chen Lijun
- Key Laboratory of Underwater Acoustic Signal Processing of Ministry of Education, Southeast University, Nanjing 210096, China
- Keywords:
- modified modal scintillation index; amplitude fluctuation; mode filtering; Pekeris waveguide
- PACS:
- O427.3
- DOI:
- 10.3969/j.issn.1003-7985.2013.03.002
- Abstract:
- A self-normalized statistic, the modified modal scintillation index(MMSI), is proposed and defined as the variance of the modulus of modal excitation normalized by the square of its expected value over some observation intervals. It is proved in an analytical form that the MMSI is a depth dependent signature and independent of the source level and the source range under the condition of the ideal waveguide, while the classical modal scintillation index(MSI)depends on both the source level and the source range. The MSI and the MMSI in the Pekeris waveguide at 70 Hz are simulated with different source levels and source ranges by the Kraken normal mode model. The simulation results are consistent with the theoretical deduction. The MMSI probability density functions(PDFs)of different normal modes for surface and submerged sources are calculated using the mode filtering methods with the same variations of vertical motions. It is indicated that the PDFs can be used to separate the submerged and the surface sources except for the fourth mode.
References:
[1] Scrimger J A. Signal amplitude and phase fluctuations induced by surface waves in ducted sound propagation [J]. J Acoust Soc Am, 1961, 33(2): 239-247.
[2] Nichols R H, Young H J. Fluctuations in low-frequency acoustic propagation in the ocean [J]. J Acoust Soc Am, 1968, 43(4):716-722.
[3] Urick R J. Models of the amplitude fluctuations of narrow-band signals in the sea [J]. J Acoust Soc Am, 1977, 62(4): 878-887.
[4] Clay G S, Wang Y Y, Shang E C. Sound field fluctuations in a shallow water wave guide [J]. J Acoust Soc Am, 1985, 77(2): 424-428.
[5] Katsnelson B, Grigorev V, Lynch J F. Intensity fluctuations of midfrequency sound signals passing through moving nonlinear internal waves [J]. J Acoust Soc Am, 2008, 124(4): EL78-EL84.
[6] Katsnelson B, Grigorev V, Badiey M, et al. Temporal sound field fluctuations in the presence of internal solitary waves in shallow water [J]. J Acoust Soc Am, 2009, 126(1): EL41-EL48.
[7] Colosi J A, Morozov A K. Statistics of normal mode amplitudes in an ocean with random sound-speed perturbations: cross-mode coherence and mean intensity [J]. J Acoust Soc Am, 2009, 126(3): 1026-1035.
[8] Colosi J A, Duda T F, Morozov A K. Statistics of low-frequency normal-mode amplitudes in an ocean with random sound-speed perturbations: shallow-water environments [J]. J Acoust Soc Am, 2012, 131(2): 1749-1761.
[9] Nair N R, Jacob R, Ajaikumar M P. Acoustic fluctuations in shallow water [C]//Proceedings of the 2011 International Symposium on Ocean Electronics. Kochi, India, 2011:174-177.
[10] Stojanovic M, Preisig J. Underwater acoustic communication channels: propagation models and statistical characterization [J]. IEEE Communications Magazine, 2009, 47(1): 84-89.
[11] Premus V. Modal scintillation index: a physics-based statistic for acoustic source depth discrimination [J]. J Acoust Soc Am, 1999, 105(4):2170-2180.
[12] Jensen F B, Kuperman W A, Porter M B, et al. Computational ocean acoustics [M]. 2nd ed. New York: Springer, 2011:345-356.
[13] Meyer S L. Data analysis for scientists and engineers [M]. New York: John Wiley & Sons Inc, 1975:286-287.
[14] Etter P C. Underwater acoustic modeling and simulation [M]. 4th ed. Boca Raton: CRC Press, 2013:145-162.
Memo
- Memo:
-
Biography: An Liang(1979—), male, doctor, lecturer, anliang@seu.edu.cn.
Foundation item: The National Natural Science Foundation of China(No.11104029).
Citation: An Liang, Fang Shiliang, Chen Lijun. Models for amplitude fluctuation of underwater acoustic narrow band signal based on modified modal scintillation index[J].Journal of Southeast University(English Edition), 2013, 29(3):235-241.[doi:10.3969/j.issn.1003-7985.2013.03.002]