Momentum Conservative Scheme for Simulating Wave Runup and Underwater Landslide
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Adytia, D., Tarwidi, D., Kifli, S.A., and Pudjaprasetya, S.R., “Staggered grid implementation of 1D Boussinesq model for simulating dispersive waveâ€. International Journal of Physics: Conference Series , vol. 971, no. 1, p. 012020. IOP Publishing. 2018.
Carrier, G.F. and Greenspan, H.P., “Water waves of finite amplitude on a sloping beachâ€. J. Fluid Mech. 4. pp. 97-109. 1958.
Dutykh, D. and Kalisch, H.. “Boussinesq modeling of surface waves due to underwater landslidesâ€. arXiv preprint arXiv:1112.5083. 2011.
Fuhrman, D.R. and Madsen, P.A., “Tsunami generation, propagation, and run-up with a high-order Boussinesq modelâ€. Coast. Eng. 56(7), pp.747-758. 2009.
Grilli, S. T., Skourup, J. & Svendsen, I. A. “An efficient boundary element method for nonlinear wavesâ€. Engng Analysis Bound. Elem. 6, 97-107. 1989.
Hammack, J.L., “A note on tsunamis: their generation and propagation in an ocean of uniform depthâ€. J. Fluid Mech. 60(4), pp.769-799. 1973.
Harbitz, C.B., Løvholt, F. dan Bungum, H. . “Submarine landslide tsunamis: how extreme and how likely?†Natural Hazards, 72(3), pp.1341-1374. 2014.
Liam, L.S., Adytia, D. and van Groesen, E..†Embedded wave generation for dispersive surface wave modelsâ€. Ocean Eng. 80. Pp. 73-83. 2014.
Lynett, P. dan Liu, P.L.F. . “A numerical study of submarine–landslide–generated waves and run–upâ€. In Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences. vol. 458, no. 2028, pp. 2885-2910. The Royal Society. 2002.
Pelinovsky, E., Kharif, C., Riabov, I. and Francius, M., “Modelling of tsunami propagation in the vicinity of the French coast of the Mediterraneanâ€. Natural hazards, 25(2), pp.135-159. 2002.
Rynn, J.. “A preliminary assessment of tsunami hazard and risk in the Indonesian regionâ€. Science of Tsunami Hazards, 20(4), p.193. 2002.
Stelling, G.S. dan Duinmeijer, S.A., “A staggered conservative scheme for every Froude number in rapidly varied shallowâ€. Journal of numerical methods in fluids, 43(12), pp.1329-1354. 2003.
Stelling, G.S. dan Zijlema, M., “Numerical modeling of wave propagation, breaking and run-up on a beachâ€. In Advanced Computational Methods in Science and Engineering,pp. 373-401. Springer, Berlin, Heidelberg. 2009.
Synolakis, C. E., “The runup of long wavesâ€. Dissertation (Ph.D.), California Institute of Technology. 1986.
Tsuji, Y., Matsutomi, H., Imamura, F., Takeo, M., Kawata, Y., Matsuyama, M., Takahashi, T. dan Harjadi, P., “Damage to coastal villages due to the 1992 Flores Island earthquake tsunamiâ€. Pure and Applied Geophysics, 144(3-4), pp.481-524. 1995.
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