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Geoacoustic inversion with ships as sources
1.M. D. Collins, W. A. Kuperman, and H. Schmidt, “Nonlinear inversion for ocean-bottom properties,” J. Acoust. Soc. Am. 92, 2770–2783 (1992). The references in this article summarize the earliest work on the topic.
2.D. F. Gingras and P. Gerstoft, “Inversion for geometric and geoacoustic parameters in shallow water: Experimental results,” J. Acoust. Soc. Am. 97, 3589–3598 (1995). This article summarizes the early work on combining localization with geoacoustic inversion.
3.D. P. Knobles and R. A. Koch, “A time series analysis of sound propagation in a strongly multipath shallow water environment with an adiabatic normal mode approach,” IEEE J. Ocean. Eng. 21, 1–13 (1996).
4. “Special Issue: Benchmarking Geoacoustic Inversion Methods,” J. Comput. Acoust. 6, 83–97 (1998). Papers from the Geoacoustic Inversion Workshop held in Vancouver, BC, 24–26 June, 1997. These articles survey then state-of-the-art geoacoustic inversion for range invariant environments with applications to simulated data.
5.M. Musil, N. R. Chapman, and M. J. Wilmut, “Range-dependent matched-field inversion of SWellEX-96 data using the downhill simplex algorithm,” J. Acoust. Soc. Am. 105, 3270–3281 (1999). This article summarizes the early work on geoacoustic inversion for range-dependent environments.
6.M. R. Fallat, P. L. Nielsen, and S. E. Dosso, “Hybrid geoacoustic inversion of broadband Mediterranean Sea data,” J. Acoust. Soc. Am. 107, 1967–1977 (2000).
7.P. Pignot and N. R. Chapman, “Tomographic inversion of geoacoustic properties in a range-dependent shallow-water environment,” J. Acoust. Soc. Am. 110, 1338–1348 (2001).
8.S. E. Dosso and P. L. Nielsen, “Quantifying uncertainty in geoacoustic inversion. II. Application to broadband, shallow-water data,” J. Acoust. Soc. Am. 111, 143–159 (2002).
9.D. P. Knobles, R. A. Koch, L. A. Thompson, K. C. Focke, and P. E. Eisman, “Broadband sound propagation in shallow water and geoacoustic inversion,” J. Acoust. Soc. Am. 113, 205–222 (2003).
10. “Special Issue on Geoacoustic Inversion in Range-Dependent Shallow-Water Environments,” IEEE J. Ocean. Eng. 28, (2003).
10.Papers on state-of-the-art applications with simulated data from the Geoacoustic Inversion Technology Workshop held in Gulfport, MS, 14–17 May, 2001.
11.H. L. Berryhill, Jr., Late Quaternary Facies and Structure, Northern Gulf of Mexico, AAPG Studies in Geology Vol. 23 (The American Association of Petroleum Geologists, Tulsa, Oklahoma, 1986).
12.E. K. Westwood, C. T. Tindle, and N. R. Chapman, “A normal mode model for acousto-elastic ocean environments,” J. Acoust. Soc. Am. 100, 3631–3645 (1996).
13.W. L. Goffe, G. D. Ferrier, and J. Rogers, “Global optimization of statistical functions with simulated annealing,” J. Econometr. 60, 65–99 (1994).
14.R. A. Koch, D. P. Knobles, T. B. Neilsen, and M. S. Haire, “Geoacoustic inversion using surface ship sources and HLA beam data,” J. Acoust. Soc. Am. 109, 2394 (2001).
15.D. P. Knobles, R. A. Koch, and M. S. Haire, “Geoacoustic inversion studies,” Proceedings of MTS/IEEE Oceans 2001 Conference, Honolulu, HA, 2001, pp. 737–744.
16.L. N. Frazer and X. Sun, “New objective functions for waveform inversion,” Geophysics 63, 213–222 (1998).
17.T. C. Yang and T. Yates, “Matched-beam processing: Application to a horizontal line array in shallow water,” J. Acoust. Soc. Am. 104, 1316–1330 (1998).
18.H. Cox, R. M. Zeskind, and M. Myers, “A subarray approach to matched field processing,” J. Acoust. Soc. Am. 87, 168–178 (1990).
19.E. K. Westwood, “Broadband matched-field source localization,” J. Acoust. Soc. Am. 91, 2777–2789 (1992).
20.D. P. Knobles and S. K. Mitchell, “Broadband localization by matched-fields in range and bearing in shallow water,” J. Acoust. Soc. Am. 96, 1813–1820 (1994).
21.H. Cox, R. M. Zeskind, and M. M. Owen, “Robust adaptive beamform-ing,” IEEE Trans. Acoust., Speech, Signal Process. ASSP-35, 1365–1376 (1987).
22.T. R. Messerschmitt and R. A. Gramann, “Evaluation of the dominant mode rejection beamformer using reduced integration times,” IEEE J. Ocean. Eng. 22, 385–392 (1997).
23.T. M. Redheendran, “Initial evaluation of the dominant mode rejection beamformer,” J. Acoust. Soc. Am. 104, 1331–1344 (1998).
24.M. D. Collins and W. A. Kuperman, “Focalization: Environmental focusing and source localization,” J. Acoust. Soc. Am. 90, 1410–1422 (1991).
25.L. A. Rubano, “Acoustic propagation in shallow water over a low-velocity bottom,” J. Acoust. Soc. Am. 67, 1608–1613 (1980).
26.J. F. Lynch, S. D. Rajan, and G. V. Frisk, “A comparison of broadband and narrow-band inversions for bottom geoacoustic properties at a site near Corpus Christi, Texas,” J. Acoust. Soc. Am. 89, 648–665 (1988).
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