1. Mashhadi, L., Hadjizadeh Zaker, N., Soltanpour, M., Moghimi, S., (2013), Numerical simulation of waves and storm surge induced by the Gonu tropical cyclone in the Chahbahar Bay area. Journal Of Marine Engineering. 9(17): p. 37-50.
2. Zangane, M., (2015), Estimation of storm surge in Neka, 14th Iranian Hydraulic Conference, University of Sistan and Baluchestan. (In Persian)
3. Nemati, M.H., Koohestani, k., Bagheri, M., Hajisalimi, Z., (2016), Sub-inertial Oscilations due to Cyclone Ashobaa. 18th Marine Industry Conference, Kish, Iran. (In Persian)
4. Bakhtiari, A., Allahyar, M. R., Jedari Attari, M., Haghshenas, S. A., Bagheri, M., (2018), Modeling of Last Recent Tropical Storms in the Arabian Sea. Journal of Coastal and Marine Engineering, 1(1): p. 58-66.
5. Fritz, H.M., et al., (2010), Cyclone Gonu storm surge in Oman. Estuarine, Coastal and Shelf Science, 86(1): p. 102-106. [
DOI:10.1016/j.ecss.2009.10.019]
6. Allahdadi, M.N., et al., (2018), Cyclone-generated Storm Surge in the Northern Gulf of Oman: A Field Data Analysis during Cyclone Gonu. American Journal of Fluid Dynamics, 8(1): p. 10-18.
7. Alymov, V.V., (2005), Integrated modeling of storm surges during Hurricanes Isabel, Charley, and Frances. Ph.D. Thesis University of Florida.
8. Liu, H., et al., (2006), Effect of ocean surface waves on storm surge and coastal flooding. 27th Conference on Hurricanes and Tropical Meteorology..
9. Xie, L., et al., (2010), Numerical simulation of tropical cyclone intensity using an air-sea-wave coupled prediction system. in Advances in Geosciences: Volume 18: Ocean Science (OS), World Scientific. p. 19-43. [
DOI:10.1142/9789812838148_0002]
10. Teng, Y.-C., (2012), Developing an Unstructured Grid, Coupled Storm Surge, Wind Wave and Inundation Model for Super-regional Applications.
11. Tasnim, K.M., et al., (2014), Numerical Simulation of cyclonic storm surges over the Bay of Bengal using a meteorology-wave-surge-tide coupled model. Coastal Engineering Proceedings, 1(34): p. 26. [
DOI:10.9753/icce.v34.currents.26]
12. Pan, Z. and H. Liu, (2015), Numerical study of typhoon-induced storm surge in the Yangtze estuary of China using a coupled 3D model. Procedia Engineering, 116: p. 849-854. [
DOI:10.1016/j.proeng.2015.08.373]
13. Nakamura, R., et al., (2015), Evaluation of storm surge caused by Typhoon Yolanda (2013) and using weather-storm surge-wave-tide model. Procedia Engineering, 116(1): p. 373-380. [
DOI:10.1016/j.proeng.2015.08.306]
14. Shaji, C., S. Kar, and T. Vishal, (2014), Storm surge studies in the North Indian Ocean.
15. Foreman, M.G.G., (1979), Manual for tidal heights analysis and prediction. Institute of Ocean Sciences, Patricia Bay.
16. http://tds.hycom.org/thredds/catalogs/GLBv0.08