Method for Tsunami Wave Kinematics Modeling in a Gridded Area

The new method for the tsunami travel times calculation to the nodes of rectangular grid was developed and tested. The algorithm is based on constructing of the wave front segment inside the grid cell using tsunami arrival times to the cell corners. Testing the method proposed shows the better quality of the wave-front line approximation as compared to the existing method developed by the author earlier.

1. Shokin Yu. I., Chubarov L. B., Novikov V. A., Sudakov A. N. Calculations of tsunami travel time charts in the Pacific Ocean – Models, Algorithms, Techniques, Results. Science of Tsunami Hazards, 1987, vol. 5, no. 2, pp. 85–113.

2. Kenji Satake. Effects of bathymetry on tsunami propagation: Application of ray tracing to tsunamis. Pure and Applied Geophysics, 1988, vol. 126, iss. 1, pp. 27–36.

3. Kremlev A. N. Prelomlenie ploskoy volny na vypuklom i vognutom uglakh v priblizhenii geometricheskoy akustiki. Sib. zhurn. vychisl. matematiki, 2017, vol. 20, no. 3, pp. 251–271. (in Russ.)

4. Titov V. V., Gonzalez F. Implementation and Testing of the Method of Splitting Tsunami (MOST). Washington DC, 1997. (Technical Memorandum / National Oceanic and Atmospheric Administration; ERL PMEL-112)

5. Imamura F. Tsunami numerical simulation with the staggered leap-frog scheme (numerical code of TUNAMI-N1 and N2). In: Disaster Control Research Center. Tohoku University, 1995, 33 p.

6. Lavrentev M. M., Lysakov K. F., Marchuk An. G., Oblaukhov K. K. Uskorenie raschetov rasprostraneniya volny tsunami s ispol'zovaniem FPGA. Uspekhi kibernetiki, 2020, vol. 1, no. 4, pp. 42–54. (in Russ.)

7. Stoker J. J. Volny na vode. Moscow, 1959, 617 p. (in Russ.)

8. Marchuk An. G. Chislennye metody rascheta kinematiki voln tsunami. In: Matematicheskie problemy geofiziki: Chislennye issledovaniya geofizicheskikh zadach. Novosibirsk, 1988, pp. 69–90. (in Russ.)

9. Marchuk An. G., Vasiliev G. S. The fast method for a rough tsunami amplitude estimation // Bulletin of the Novosibirsk Computing Center. Series: Math. Model. in Geoph., 2014, no. 17, pp. 21–34.

10. Marchuk An. G. Otsenka vysoty tsunami, rasprostranyayushcheysya nad parabolicheskim dnom, v luchevom priblizhenii. Sib. zhurn. vychisl. matematiki, 2017, vol. 20, no. 1, pp. 23–35. (in Russ.)