Evidence in support of Gaussian mixture models for sparse time varying ocean acoustic response functions.
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| Title: | Evidence in support of Gaussian mixture models for sparse time varying ocean acoustic response functions. |
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| Authors: | Gendron, Paul J. |
| Source: | Journal of the Acoustical Society of America; Apr2017, Vol. 141 Issue 4, pEL413-EL419, 7p |
| Subject Terms: | GAUSSIAN mixture models, MATHEMATICAL models of underwater acoustics, ACOUSTIC receivers, ACOUSTIC arrays, ACOUSTIC radiators |
| Abstract: | A hierarchical Gaussian mixture model has been proposed to characterize sparse space-time varying shallow water acoustic response functions [Gendron, J. Acoust. Soc. Am. 139, 1923-1937 (2016)]. Considered here is an extension of this model to a uniform linear vertical array in order to provide an empirical validation of the mixture model for receivers of small aperture. An acoustic environment between source and moving receiver is predicated on a small proportion of relatively coherent paths obeying an ensemble frequency-angle-Doppler distribution. Provided are quantile-quantile plots of the discrete mixture model versus the empirical channel coefficients that lend credence to its use as a sparse model for acoustic response functions. [ABSTRACT FROM AUTHOR] |
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| Database: | Complementary Index |
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