참고문헌 (19)

1. Araki, M., Sadat-Hosseini, H., Sanada, Y., Tanimoto, K., Umeda, N. and Stern, F., 2012. Estimating maneuvering coefficients using system identification Methods with experimental, system-based, and CFD free-running trial data, Ocean Engineering, 51, pp.63-84. 

   상세보기

2. Kim, D.J. and Kim, Y.G., 2020. Tune of hydrodynamic coefficients based on empirical formula by using manoeuvring performance indices of a ship. Journal of the Society of Naval Architects of Korea, 57(6), pp.331-344. 

3. Kim, Y.G., Yeo, D.J., Kim, S.Y., Yun, K.H. and Oh, B.I., 2009. Prediction of maneuverability of KCS by CPMC captive model test. Journal of the Society of Naval Architects of Korea, 46(6), pp.553-561. 

4. Kim, Y.G., Yeo, D.J., Son, N.S., Kim, S.Y., Yun, K.H. and Oh, B.I., 2011. Prediction of maneuverability of KCS with 4 degrees of freedom. Journal of the Society of Naval Architects of Korea, 48(3), pp.267-274. 

5. Lee, H.Y. and Shin, S.S., 1998. Approximate technique for ship's manoeuvrability prediction. Journal of the Society of Naval Architects of Korea, 35(4), pp.19-26. 

6. Park, J., Seo, J., Lee, T., Lee, D., Park, G., Yoon, H.K. and Rhee, S.H., 2020. Uncertainty assessment of outdoor free-running model tests for evaluating ship maneuverability. Journal of the Society of Naval Architects of Korea, 57(5), pp.262-270. 

7. Sanada, Y., Tanimoto, K., Takagi, K., Gui, L., Toda, Y. and Stern, F., 2013. Trajectories for ONR Tumblehome maneuvering in calm water and waves. Ocean Engineering, 72, pp.45-65. 

   상세보기

8. Seo, J., Kim, D.H., Ha, J., Rhee, S.H., Yoon, H.K., Park, J., Seok, W.C. and Rhee, K.P., 2020. Captive model tests for assessing maneuverability of a damaged surface combatant with initial heel angle. Journal of Ship Research, 64(4), pp.392-406. 

   상세보기

9. Shin, H. and Kim, M.S., 2008. Development of free running system for 2m-class ship models. Journal of the Society of Naval Architects of Korea, 45(3), pp.247-257. 

10. Son, K.H., 1989. On the Mathematical model for estimating manoeuvring performance of ships. Journal of Korean Institute of Navigation, 13(2), pp.57-73. 

11. Sohn, K.H. and Kim, Y.M., 2003. A study on new mathematical model of ship manoeuvring motion taking coupling effect of roll into consideration. Journal of Korean Navigation and Port Research, 27(5), pp.451-458. 

12. Sutulo, S. and Soares, C.G., 2014. An algorithm for offline identification of ship manoeuvring mathematical models from free-running tests. Ocean Engineering, 79, pp.10-25. 

    상세보기

13. Yasukawa, H. and Yoshimura, Y., 2015. Introduction of MMG standard method for ship maneuvering predictions. Journal of Marine Science and Technology, 20, pp.37-52. 

14. Yasukawa, H., Sakuno, R. and Yoshimura, Y., 2019. Practical maneuvering simulation method of ships considering the roll-coupling effect. Journal of Marine Science and Technology, 24, pp.1280-1296. 

15. Yoon, H.K. and Rhee, K.P., 2003. Comparison of the estimation-before-modeling technique with the parameter estimation method using the extended Kalman filter in the estimation of manoeuvring derivatives of a ship. Journal of the Society of Naval Architects of Korea, 40(5), pp.43-52. 

16. Yoon, H.K. and Son, N.S., 2004. Estimation of roll related coefficients of a ship by using the system identification method. Journal of the Society of Naval Architects of Korea, 41(4), pp.53-58. 

17. Yun, K., Yeo, D.J. and Park, B., 2015. A study on the manoeuvrability of KVLCC2 in shallow water by free running model test. Journal of the Society of Naval Architects of Korea, 52(6), pp.494-500. 

18. Yun, K. and Yeo, D.J., 2019. An experimental study on the manoeuvrabiilty of a ship in heeled condition. Journal of the Society of Naval Architects of Korea, 56(3), pp.273-280. 

19. Yun, K., Choi, H. and Kim, D.J., 2021. An experimental study on the manoeuvrability of KCS with different scale ratios by free running model test. Journal of the society of Naval Architects of Korea, 58(6), pp.415-423.