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NTIS 바로가기韓國海洋工學會誌 = Journal of ocean engineering and technology, v.29 no.6, 2015년, pp.436 - 444
박종용 (서울대학교 조선해양공학과) , 김낙완 (서울대학교 조선해양공학과) , 이기표 (서울대학교 조선해양공학과) , 윤현규 (창원대학교 조선해양공학과) , 김찬기 (국방과학연구소) , 정철민 (국방과학연구소) , 안경수 (현대중공업) , 이성균 (현대중공업)
A submerged body is sensitive to changes in the roll moment because of the small restoring moment and moment of inertia. Thus, a method for predicting the roll-related hydrodynamic coefficients is important. This paper describes a deduction method for the hydrodynamic coefficients based on the resul...
Feldman, J., 1979. DTNSRDC Revised Standard Submarine Equation of Motion. DTNSRDC SPD-0393-09.
Feldman J., 1987. Straightline and Rotating Arm Captive-model Experiments to Investigate the Stability and Control Characteristics of Submarines and Other Submerged Cehicles. David Taylor Research Center, Bethesda MD, Ship Hydromechanics Department.
Feldman J., 1995. Method of Performing Captive-model Experiments to Predict the Stability and Control Characteristics of Submarines. Carderock Division Naval Surface Warfare Center, CRDKNSWC-HD-0393-25.
Gertler, M., Hagen, G.R., 1967. Standard Equation of Motion for Submarine Simulation. NSRDC-Report SR 009 01 01, Task 0102.
ITTC, 2002. Recommended Procedure - Ship Models. 23rd International Towing Tank Conference, 7.5-01-01-01.
Kim, S.Y., Yang, H.J., Kim, J.W., Hong, S.W., Kang, J.S., Jun, T.B., 2000. A Description of KRISO Rotating Arm System. Journal of Ship & Ocean Engineering, 29, 155-160.
Lewandowski, E., 1991. Tests of a Submarine Model in Coning Motion. Davidson Laboratory Technical Report 2660.
Nguyen V.D., Drolet Y., Watt G.D., 1995. Interference of Various Support Strut Configurations in Wind Tunnel Tests on a Model Submarine. Proceedings of the 33rd Aerospace Sciences Meeting and Exhibit, AIAA Paper 95-0443.
Quick H., Widjaja R., Anderson B., Woodyatt B., Snowden AD., Lam S., 2012. Phase I Experimental Testing of a Generic Submarine Model in the DSTO Low Speed Wind Tunnel. DSTO Technical Note, DSTO-TN-1101
Quick H., Widjaja R., Anderson B., Woodyatt B., Snowden A.D., Lam S., 2014. Phase II Experimental Testing of a Generic Submarine Model in the DSTO Low Speed Wind Tunnel. DSTO Technical Note, DSTO-TN-1274.
Rhee, K.P., Yoon, H.K., Sung, Y.J., Kim, S.H., Kang, J.N., 2000. An Experimental Study on Hydrodynamic Coefficients of Submerged Body Using Planar Motion Mechanism and Coning Motion Device. In International Workshop on Ship Maneuverability, 1-20.
Seol D.M., 2005. An Experimental Study of the Depth Effect on the Manoeuvrability in a Horizontal Plane of the Submerged Body. Seoul National University, Master Thesis.
Watt G.D., 2007. Modelling and Simulating Unsteady Six Degrees-of-freedom Submarine Rising Maneuvers. DRDC Atlantic TR 2007-008.
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