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B. R. Kerman, “Audio signature of a laboratory breaking wave,” in Sea Surface Sound, edited by B. R. Kerman (Kluwer Academic, Dordrecht, 1988), pp. 437–448.
W. K. Melville, M. R. Loewen, F. C. Felizardo, A. T. Jessup, and M. J. Buckingham, “Acoustic and microwave signatures of breaking waves,” Nature (London) 336, 5459 (1988).
M. R. Loewen and W. K. Melville, “Microwave backscatter and acoustic radiation from breaking waves,” J. Fluid Mech. 224, 601623 (1991).
M. R. Loewen and W. K. Melville, “An experimental investigation of the collective oscillations of bubble plumes entrained by breaking waves,” J. Acoust. Soc. Am. 95, 13291343 (1994).
A. Kolaini, “Sound radiation by various types of laboratory breaking waves in fresh and salt water,” J. Acoust. Soc. Am. 103, 300308 (1998).
G. B. Deane, “Sound generation and air entrainment by breaking waves in the surf zone,” J. Acoust. Soc. Am. 102, 26712689 (1997).
P. Papanicolaou and F. Raichlen, “Wave and bubble characteristics in the surf zone,” in Sea Surface Sound, edited by B. R. Kerman (Kluwer Academic, Dordrecht, Netherlands, 1988), pp. 97–109.
O. B. Wilson, M. S. Stewart, J. H. Wilson, and R. H. Bourke, “Noise source level density due to surf-part I: Monterey Bay, CA,” IEEE J. Ocean. Eng. 22, 425433 (1997).
J. P. Fabre and J. H. Wilson, “Noise source level density due to surf-part II: Duck, NC,” IEEE J. Ocean. Eng. 22, 434444 (1997).
S. L. Means and R. M. Heitmeyer, “Surf-generated noise signatures: A comparison of plunging and spilling breakers,” J. Acoust. Soc. Am. 112, 481488 (2002).
H. Chipman, E. Kolaczyk, and R. McCullouch, “Adaptive bayesian wavelet shrinkage,” 92, 14131421 (1997).
P. J. Gendron and B. Nandram, “Modeling heavy-tailed correlated noise with wavelet packet basis functions,” J. Stat. Plan. Infer. 112, 99114 (2003).
P. J. Gendron and B. Nandram, “An empirical bayes estimator of seismic events using wavelet packet bases,” J. Ag. Bio. Env. Stat. 6, 379406 (2001).
S. F. Arnold, Mathematical Statistics (Prentice–Hall, Englewood Cliffs, NJ, 1990), pp. 408–410.

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