References
- Allen, J. S. 1976. Some aspects of the forces wave response of stratified coastal regions. J. Phys. Oceanogr. 6, 113–119.
- Araltawa, A. and Lamb, V. R.. 1981. A potential enstrophy and energy conserving scheme for the shallow water equations. Mon. Wea. Rev. 109, 18–36.
- Crepon, M. and Richez, C. 1982. Transient upwelling generated by two-dimensional atmospheric forcing and variability of the coastline. J. Phys. Oceanogr. 12, 1437–1457.
- Hua, B. L. and Thomasset, F. 1983. A numerical study of the effects of coastline geometry on wind-induced upwellings in the Gulf of Lions. J. Phys. Oceanogr. 13, 678–694.
- Hurlburt, H. E. and O'Brien, J. J. 1972 A numerical model of coastal upwelling. J. Phys. Oceanogr. 2, 14–26.
- Kwizack, M. and Robert, A. J. 1971. A semi-implicit scheme for grid point atmospheric models of the primitive equations. Mon. Wea. Rev. 99, 32–36.
- Mesinger, F. 1973. A method for construction of second order accuracy difference schemes permitting no false two-grid interval wave in the height field. Tellus 25, 444–458.
- Pinder, G. F. and Gray, W. G. 1977. Finite elements simulation in surface and subsurface hydrology. New York: Academic Press.
- Platzmann, G. W. 1981. Some response characteristics of finite element tidal model. J. Comp. Phys. 40, 36–63.
- Schoenstadt, A. L., 1980. A transfer function analysis of numerical schemes used to simulate geostrophic adjustment. Mon. Wea. Rev. 108, 1248–1259.
- Thomasset, F. 1981. Implementation of finite elements methods for Navier—Stokes equations. Springer Ver-lag: Berlin.
- Williams, R. T. 1981. On the formulation of finite-element prediction models. Mon. Wea. Rev. 109, 463–466.
- Zienkiewicz, O. C., 1977. The finite element method in engineering science. McGraw-Hill: New York.