Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Shemdin, O. H.
Hsiao, S. V.
Carlson, H. E.
Hasselmann, K.
and
Schulze, K.
1980.
Mechanisms of wave transformation in finite‐depth water.
Journal of Geophysical Research: Oceans,
Vol. 85,
Issue. C9,
p.
5012.
Carlson, H.
and
Günther, H.
1983.
North Sea Dynamics.
p.
220.
Bouws, E.
Günther, H.
Rosenthal, W.
and
Vincent, C. L.
1985.
Similarity of the wind wave spectrum in finite depth water: 1. Spectral form.
Journal of Geophysical Research: Oceans,
Vol. 90,
Issue. C1,
p.
975.
Knowles, C. E.
1986.
Wave Dynamics and Radio Probing of the Ocean Surface.
p.
145.
Barrick, D.
and
Lipa, B.
1986.
The second-order shallow-water hydrodynamic coupling coefficient in interpretation of HF radar sea echo.
IEEE Journal of Oceanic Engineering,
Vol. 11,
Issue. 2,
p.
310.
Resio, Donald T.
1987.
Shallow‐Water Waves. I: Theory.
Journal of Waterway, Port, Coastal, and Ocean Engineering,
Vol. 113,
Issue. 3,
p.
264.
West, Bruce J.
Brueckner, Keith A.
Janda, Ralph S.
Milder, D. Michael
and
Milton, Robert L.
1987.
A new numerical method for surface hydrodynamics.
Journal of Geophysical Research: Oceans,
Vol. 92,
Issue. C11,
p.
11803.
Bouws, Evert
Günther, Heinz
Rosenthal, Wolfgang
and
Vincent, Charles L.
1987.
Similarity of the wind wave spectrum in finite depth water part 2: Statistical relations between shape and growth stage parameters.
Deutsche Hydrographische Zeitschrift,
Vol. 40,
Issue. 1,
p.
1.
Cavaleri, Luigi
Bertotti, Luciana
and
Lionello, Piero
1989.
Shallow water application of the third‐generation WAM wave model.
Journal of Geophysical Research: Oceans,
Vol. 94,
Issue. C6,
p.
8111.
Perrie, W.
Günther, H.
Rosenthal, W.
and
Toulany, B.
1989.
Modelling wind‐generated surface gravity waves using similarity in a coupled discrete wave model.
Quarterly Journal of the Royal Meteorological Society,
Vol. 115,
Issue. 490,
p.
1373.
Perrie, Will
1991.
Non-Linear Variability in Geophysics.
p.
257.
1993.
A review of the central role of nonlinear interactions in wind—wave evolution.
Philosophical Transactions of the Royal Society of London. Series A: Physical and Engineering Sciences,
Vol. 342,
Issue. 1666,
p.
505.
Elgar, Steve
Herbers, T. H. C.
Chandran, Vinod
and
Guza, R. T.
1995.
Higher‐order spectral analysis of nonlinear ocean surface gravity waves.
Journal of Geophysical Research: Oceans,
Vol. 100,
Issue. C3,
p.
4977.
Kalmykov, V. A.
1996.
Evolution of surge in the sea of finite depth under the effect of wave-wave interactions.
Physical Oceanography,
Vol. 7,
Issue. 5,
p.
359.
Kalmykov, V. A.
1996.
Spectral evolution of surface waves in a deep sea due to the effect of wave-wave interactions.
Physical Oceanography,
Vol. 7,
Issue. 3,
p.
159.
Young, I.R.
Verhagen, L.A.
and
Khatri, S.K.
1996.
The growth of fetch limited waves in water of finite depth. Part 3. Directional spectra.
Coastal Engineering,
Vol. 29,
Issue. 1-2,
p.
101.
Snyder, Russell L.
Long, Robert B.
and
Neu, Wayne L.
1998.
A fully nonlinear regional wave model for the Bight of Abaco: 1. Nonlinear‐transfer computation.
Journal of Geophysical Research: Oceans,
Vol. 103,
Issue. C2,
p.
3119.
Hashimoto, Noriaki
Tsuruya, Hiroichi
and
Nakagawa, Yasuyuki
1998.
Numerical Computations of the Nonlinear Energy Transfer of Gravity-Wave Spectra in Finite Water Depths.
Coastal Engineering Journal,
Vol. 40,
Issue. 1,
p.
23.
1999.
Wind Generated Ocean Waves.
Vol. 2,
Issue. ,
p.
255.
Gorman, Richard M.
and
Neilson, Cameron G.
1999.
Modelling shallow water wave generation and transformation in an intertidal estuary.
Coastal Engineering,
Vol. 36,
Issue. 3,
p.
197.