Geoscience Reference
In-Depth Information
Murty T. S. (1984): Storm surges. Meteorological ocean tides. Department of Fisheries and Oceans,
Bulletin 212, Ottawa
Myers, E. P., Baptista A. M. (1995): Finite Element Modeling of the July 12, 1993 Hokkaido
Nansei-Oki Tsunami. Pure Appl. Geophys. 144(3/4) 769-802
Nakoulima O., Zahibo N, Pelinovsky E., Talipova T., Kurkin A. (2005): Solitary wave dynamics
in shallow water above periodic bottom. Chaos 15(3) 037107
Nekrasov A. V. (1973): On the Reflection of tidal waves from the shelf zone (in Russian). Oceanol-
ogy 13(2) 210-215
Okada Y. (1985): Surface deformation due to shear and tensile faults in a half-space. Bull. Seismol.
Soc. Am. 75(4) 1135-1154
Okal E. A., Piatanesi A. Heinrich P. (1999): Tsunami detection by satellite altimetry. J. Geophys.
Res. 104 599-615
Pedersen G., Gjevik B. (1983): Run-up of solitary waves. J. Fluid Mech. 135 283-290
Pelinovsky E. (1995): Non-linear hyperbolic equations and run-up of Huge sea waves. Appl. Anal.
57 63-84
Pelinovsky E. N., Stepanyants Yu., Talipova T. (1993): Non-linear dispersion model of sea waves
in the coastal zone. J. Korean Soc. Coastal Ocean Eng. 5(4) 307-317
Pelinovsky E. N. (1996): Hydrodynamics of tsunami waves (in Russian). Institute of Applied
Physics, RAS, Nizhnii Novgorod
Pelinovsky E. N. (1982): Non-linear dynamics of tsunami waves (in Russian), Institute of Applied
Physics, USSR AS.Gorky
Rabinovich A. B., Lobkovsky L. I., Fine I. V., et al. (2008): Near-source observations and model-
ing of the Kuril Islands tsunamis of November 15, 2006 and January 13, 2007. Adv. Geosci.
14 105-116
Rivera P.C. (2006): Modeling the Asian tsunami evolution and propagation with a new generation
mechanism and a non-linear dispersive wave model. Science of Tsunami Hazards 25(1) 18-33
Satake K. (1988): Effects of bathymetry on tsunami propagation: application of ray tracing to
tsunamis, PAGEOPH 126 27-36
Satake K., Imamura F. (1995): Tsunamis: seismological and disaster prevention studies. J. Phys.
Earth 43(3) 259-277
Shen M. C., Meyer R. E. (1963): Climb of a bor on a beach. Part 3. Run-up. J. Fluid Mech. 16 113-
125
Sielecki A., Wurtele M. (1970): The numerical integration of the non-linear shallow water equa-
tions with sloping boundaries. J. Comput. Phys. 6 219-236
Spielvogel L. Q. (1975): Single-wave run-up on sloping beaches. J. Fluid Mech. 74 685-694
Suleimani E., Hansen R., Kowalik Z. (2003): Inundation modeling of the 1964 tsunami in
Kodiak Island, Alaska. In: Submarine Landslides and Tsunamis (edited by Yalciner A. C.,
Pelinovsky E. N., Okal E. Synolakis C. E.), 21 191-201. Kluwer, Dordreecht
Synolakis C. E. (1987): The run-up of solitary waves. J. Fluid Mech. 185 523-545
Synolakis C. E., Fritz M. H., Borrero C. J. (2005): Far Field Surveys of the Indian Ocean Tsunami:
Sri Lanka, Maldives and Somalia. In: 22nd International Tsunami Symposium, Chania, Crete
isl. Greece, June 27-29, 2005 (edited by Papadopoulos G. A., Satake K.), pp. 57-64
Stoker J. J. (1959): Water waves, Interscience, New York
Tadepalli S., Synolakis C. E. (1994): The run-up of N-waves on sloping beaches. Proc. R. Soc.
Lond. A. 445 99-112
Takahashi To., Takahashi Ta., Shuto N., Imamura F., Ortiz M. (1995): Source models for the 1993
Hokkaido-Nansei-Oki earthquake tsunami. Pure Appl. Geophys. 144(3/4) 747-768
Tanioka Y., Seno T. (2001): Sediment effect on tsunami generation of the 1896 Sanriku tsunami
earthquake. Geophys. Res. Lett. 28(17) 3389-3392
Tinti S., Tonini R. (2005): Analytical evolution of tsunamis induced by near-shore earthquakes on
a constant-slope ocean. J. Fluid Mech. 535 33-64
Titov V. V., Gonzalez F. I. (1997): Implementation and testing of the Method of Splitting Tsunami
(MOST) model. NOAA Technical Memorandum ERL PMEL-112
