https://orcid.org/0000-0002-5788-6696
References
- Carr, L. E., III, and R. L. Elsberry. 1997. Models of tropical cyclone wind distribution and beta-effect propagation for application to tropical cyclone track forecasting. Monthly Weather Review 125 (12):3190–209.
- Fernandes, E., K. Dyer, and L. Niencheski. 2001. Calibration and validation of the TELEMAC-2D model to the Patos Lagoon (Brazil). Journal of Coastal Research:470–88.
- Hervouet, J. M., and L. Van Haren. 1994. TELEMAC 2D Principal Note. Electricite de France Rapport HE 43/94/051/B, 87.
- Holland, G. J. 1980. An analytic model of the wind and pressure profiles in the hurricanes. Monthly Weather Review 108 (8):1212–8.
- Jelesnianski, C. P. 1965. A numerical calculation of storm tides induced by a tropical storm impinging on a continental shelf. Monthly Weather Review 93 (6):343–58.
- Jelesnianski, C. P. 1966. Numerical computations of storm surges without bottom stress. Monthly Weather Review 94 (6):379–94.
- Knaff, J. A., C. R. Sampson, M. DeMaria, T. P. Marchok, J. M. Gross, and C. J. McAdie. 2007. Statistical tropical cyclone wind radii prediction using climatology and persistence. Weather and Forecasting 22 (4):781–91.
- Lewis, M., K. Horsburgh, and P. Bates. 2014. Bay of Bengal cyclone extreme water level estimate uncertainty. Natural Hazards 72 (2):983–96.
- Lewis, M., P. Bates, K. Horsburgh, J. Neal, and G. Schumann. 2013. A storm surge inundation model of the northern Bay of Bengal using publicly available data. Quarterly Journal of the Royal Meteorological Society 139 (671):358–69.
- Liu, F., and J. Sasaki. 2019. Hybrid methods combining atmospheric reanalysis data and a parametric typhoon model to hind cast storm surges in Tokyo Bay. Scientific Reports 9 (1):12222.
- Murty, P. L. N., K. G. Sandhya, P. K. Bhaskaran, F. Jose, R. Gayathri, T. M. Balakrishnan Nair, T. Srinivasa Kumar, and S. S. C. Shenoi. 2014. A coupled hydrodynamic modelling system for PHAILIN cyclone in the Bay of Bengal. Coastal Engineering 93:71–81. 10.1016/j.coastaleng.2014.08.006.
- Murty, P. L. N., K. Siva Srinivas, E. Pattabhi Rama Rao, P. K. Bhaskaran, S. S. C. Shenoi, and J. Padmanabham. 2020. Improved cyclonic wind fields over the Bay of Bengal and their application in storm surge and wave computations. Applied Ocean Research 95:102048.
- Myers, V. A., and W. Malkin. 1961. Some properties of hurricane wind fields as deduced form trajectories; U.S. Weather Bureau, National hurricane Research Project, Report 49.
- Nadimpalli, R., K. K. Osuri, S. Pattanayak, U. C. Mohanty, M. M. Nageswararao, and S. Kiran Prasad. 2016. Real-time prediction of movement, intensity and storm surge of very severe cyclonic storm Hudhud over Bay of Bengal using high-resolution dynamical model. Natural Hazards 81 (3):1771–95.
- Pan, Y., Y. P. Chen, J. X. Li, and X. L. Ding. 2016. Improvement of wind field hind casts for tropical cyclones. Water Science and Engineering 9 (1):58–66.
- Persson, A., and F. Grazzini. 2007. User Guide to ECMWF forecast products. Ver. 4.0.
- Rankine, W. J. M. 1882. A Manual of Applied Physics. London, UK: Charles Griff and Co.
- Russell, L. R. 1968. Probability distribution for texas gulf coast hurricane effects of engineering interest. PhD diss., Stanford University.
- Saichenthur, N., K. Murali, and V. Sundar. 2022. Influence of horizontal eddy viscosity and bottom friction coefficients on morphodynamic evaluations. Journal of Hydro-Environment Research 40:102–15. ISSN 1570–6443.
- Shankar, C. G., and M. R. Behera. 2019. Wave Boundary Layer Model based wind drag estimation for tropical storm surge modelling in the Bay of Bengal. Ocean Engineering 191:106509. 10.1016/j.oceaneng.2019.106509.
- Shao, Z., B. Liang, H. Li, G. Wu, and Z. Wu. 2018. Blended wind fields for wave modelling of tropical cyclones in the South China Sea and East China Sea. Applied Ocean Research 71:20–33.
- Sirisha, P., P. G. Remya, T. M. Balakrishnan Nair, and B. V. RAO. 2015. Numerical simulation and observations of very severe cyclone generated surface wave fields in the north Indian Ocean. Journal of Earth System Science 124 (8):1639–51.
- Srinivasa Kumar, T., P. L. N. Murty, M. Pradeep Kumar, M. Krishna Kumar, J. Padmanabham, N. Kiran Kumar, S. C. Shenoi, M. Mohapatra, S. Nayak, and P. Mohanty. 2015. Modelling storm surge and its associated inland inundation extent due to very severe cyclonic storm Phailin. Marine Geodesy 38 (4):345–60.
- Woodcock, F., and D. M. Greenslade. 2007. Consensus of numerical model forecasts of significant wave heights. Weather and Forecasting 22 (4):792–803.