1 Koike, Y., Saeki, A., Mutaguchi, M., Imazeki, M., Miyabe, H. and Yamashitar, S.(1999), “Application of Hybrid Anti-Rolling System to Actual Ship”, Transaction of the society of Naval Architecture of Japan, Vol. 185, pp. 111-117.
2 Koike, Y., Yoshikai, K., Hiroshige, E., Tanida, K. and Mutaguchi, M.1994), Study and At-sea Experiment on Actively Controlled Anti-Rolling System, Transaction of the society of Naval Architecture of Japan 176, 137-143.
3 Moon, S.J., Jeong, J.A., Yoon, H.K., Lee, G.J. and Ahn, S.P.“An Experimental Study on Mass Driving Amti-Rolling System for Ships.” Transaction of the Society of Naval Architecs of Korea, (2005), Vol. 42, pp. 665-672.
4 Oikawa, M., Koike, Y and Chatani, Y(1993), “Study and At-sea Experiment on Actively Controlled Anti-Rolling System.” Transaction of the society of Naval Architecture of Japan, Vol. 174, pp. 217-223.
5 Park, S. C, Yi, G. J and Park, K. IReduction Ship Rolling with a Anti-Rolling Pendulum. Journal of Korean Institute of Navigation and Port Research 406):361-367.
6 Mechanics, P.(1932), Fins Proposed For Big Liners To Prevent Rolling. p. 251.
7 Mechanics, P.(1933), Fins to Stop Ship's Rolling Governed by Gyro. p. 509.
8 Rao, S.S.Mechanical vibrations.. 4th ed. Pearson Education Korea Ltd.; (2005), p. 730-733, 736-740.
9 Sellars, F.H. and Martin, J.P.“Selection and Evaluation of Ship Roll Stabilizer Systems.” Mater. Technol., (1992), Vol. 29, No. 2, pp. 84-101.
10 Society of Naval Architects and Marine EngineersPrinciples of Naval Architecture. (1989), 3, p. 127.
11 Yoon, H.K., Lee, G.J. and Lee, C.M.“Modeling and Simulation of a Ship with Anti-Rolling Devices in Waves.” Journal of Korean Navigation and Port Research, (2004), Vol. 28, No. 5, pp. 347-352.