1 |
Aydin, M., 2013. Development of a systematic series of gulet hull forms with cruiser stern. Ocean Engineering, 58, pp. 180-190.
DOI
ScienceOn
|
2 |
Bales, N.K., 1980. Optimizing the seakeeping performance of destroyer-type hulls. Proceedings of the 13th Symposium on Naval Hydrodynamics, Tokyo, Japan, October 1980, pp.479-502.
|
3 |
Brown, D., 2005. A forward analysis of a gulet type hull form, Mar 398 Project and Report. Newcastle: University of Newcastle.
|
4 |
Frank, 1967. Oscillation of cylinders in or below the free surface of deep fluids, Technical Report 2375. Washington D.C.: Naval Ship Research and Development Centre.
|
5 |
Kukner, A. and Sarioz, K., 1995. High speed hull form optimization for seakeeping. Advances in Engineering Software, 22, pp.179-189.
DOI
ScienceOn
|
6 |
Ozum, S., Sener, B. and Yilmaz, H., 2011. A parametric study on seakeeping assessment of fast ships in conceptual design stage. Ocean Engineering, 38, pp.1439-1447.
DOI
ScienceOn
|
7 |
Sayli, A., Alkan, A.D., Nabergoj, R. and Uysal, A.O., 2007. Seakeeping assessment of fishing vessels in conceptual design stage. Ocean Engineering, 34, pp.724-738.
DOI
ScienceOn
|
8 |
Sayli, A., Alkan A.D., and Ganiler, O., 2009. Nonlinear meta- models for conceptual seakeeping design of fishing vessels. Ocean Engineering, 37, pp.730-741.
|