1 |
Bagnold, R.A. (1963). Mechanics of marine sedimentation. The Sea, Ideas and Observations, Vol. 3. The Earth beneath the Sea. Interscience, New York, 507-528.
|
2 |
Bailard, J.A. and Inman, D.L. (1981). An energetics bedload model for a plane sloping beach: local transport. J. Geophys. Res., 86(C3), 2035-2043.
DOI
|
3 |
Cayley, A. (1895). An elementary treatise on elliptic functions, 2nd ed. London. G. Bell.
|
4 |
Cho, Y.J. and Lee, J.I. (2003). Forecasting of higher order spectral quantities of nonlinear random waves over surf zone. KSCE Journal of Civil Engineering, 7(3), 333-341.
DOI
|
5 |
Dean, R.G., Berek, E.P., Gable, C.G. and Seymour, R.J. (1982). Longshore transport determined by an efficient trap. Proceedings of 18th Coastal Engineering Conference, ASCE, Cape Town, 954-968.
|
6 |
Dean, R.G. and Dalrymple, R.A. (2002). Coastal Processes with Engineering Applications. Cambridge University Press, Cambridge, UK.
|
7 |
Flick, R.E., Guza, R.T. and Inman, D.L. (1981). Elevation and velocity measurements of laboratory shoaling waves. Journal of Geophysical Research, 86, 4149-4160.
DOI
|
8 |
Frelich, M.H. and Guza, R.T. (1984). Nonlinear effects on shoaling surface gravity waves. Phil. Trans. R. Soc. Lond. A 311, 1-41.
DOI
|
9 |
Hanson, H. and Kraus, N.C. (1989). Genesis: Generalized Model for Simulating Shoreline Change. U.S. Army Coprs of Engineers, Coastal Engineering Research Center, CERC-MP-89-19.
|
10 |
Hanson, H. and Larson, M. (1987). Comparison of Analytic and Numerical Solutions of the One-Line Model of Shoreline Change. Proc. Coastal Sediments '87, ASCE, 500-514.
|
11 |
Inman, D.L. and Bagnold, R.A. (1963). Littoral Processes. The Sea, vol. 3, New York, Interscience, New York, 529-553.
|
12 |
Komar, P.D. and Inman, D.L. (1970). Longshore sand transport on beaches. J. Geophys. Res., 75, 5914-5927.
DOI
|
13 |
Kraus, N.C., Hanson, H. and Harikai, S. (1984). A shoreline change at Oarai beach past, present, and future, Proc. 19th Intl. Conf. Coastal Eng., ASCE, Houston, 2107-2123.
|
14 |
Kraus, N.C., Isobe, M., Igarashi, H., Sasaki, T.O. and Horikawa, K. (1982). Field experiments on longshore sand transport in the surf zone. Proceedings of 18th Coastal Engineering Conference, ASCE, Cape Town, 970-988.
|
15 |
Mase, H. and Kirby, J.T. (1992). Hybrid frequency-domain KdV equation for random wave transformation. Proc. 23th Int. Conf. Coast. Engrg. ASCE, Venice, Italy, 474-487.
|
16 |
Walton, T.L. and Dean, R.G. (2010). Longshore sediment transport via littoral drift rose. Ocean Engineering, 37, 228-235.
DOI
|
17 |
Oh, J.K., Chung, S.M. and Cho, Y.K. (2007). Variations of grain textural parameters of beaches by coast development at East Coast, Korea Peninsula. J. Korean Earth Science Society, 28(7), 914-924.
DOI
|
18 |
Walton, T.L. and Dean, R.G. (1973). Application of littoral drift roses to coastal engineering problems. Proceedings of the Conference on Engineering Dynamics in the Surf Zone, Sydney, Australia, 221-227.
|
19 |
Hanson, H. (1989). Genesis-A generalized shoreline change numerical model. J. Coastal Res., 5(1), 1-27.
|