Belenky, V.L. (1993). Capsizing Probability Computation
Method, Journal of Ship Research, 37(3): 200-207.
Japan (1982). Weather Criteria, Results on Japanese Ships, SLF/7.
Kato, H. (1956). On a Method for Calculating an Approximate
Value of the Rolling Period of Ships, Journal of Society of Naval
Architects of Japan, Vol. 89.
Kobylinski, L.K. and S.
Kastner (2003). Stability and Safety of Ships, Elsevier (Oxford, UK),
Vol. 1.
Motora, S. (1957). Ship Dynamics, Kyoritsu Publications
(Tokyo).
Okada, S. (1952). On the Heeling Moment due to
Wind Pressure on Small Vessels, Journal of Society of Naval Architects
of Japan, Vol. 92: 75-81.
Pierrote, E. (1935). A Standard
of Stability for Ships, Transaction of the Institution of Naval Architects,
p. 208.
Sverdrup, H.U. and W.H. Munk (1947). Wind, Sea
and Swell, Theory of Relations for Forecasting, Hydrographic Office
Publication No.601.
Tasai, F. and M. Takagi (1969). Theory
and Calculation Method for Response in Regular Waves, Seakeeping Symposium,
Society of Naval Architects of Japan, p.40.
Tsuchiya,
T. (1975). An Approach for Treating the Stability of Fishing Boats,
Proceedings of International Conference on Stability of Ships and
Ocean Vehicles, University of Strathclyde, 5.3:1-9.
USSR
(1961). Standards of Stability of Sea-Going Vessels and Coasters,
Register of Shipping of the USSR, Mosrskoi Transport, Moscow. Also
available in IMCO STAB/77, USSR (1979)
Watanabe, Y., (1938).
Some Contributions to the Theory of Rolling, Transaction of the Institution
of Naval Architects, 80:408-432.
Watanabe, Y. et
al. (1955). Report of the Ocean Wind about Japan on the Naval-Architectural
Point of View., Journal of Society of Naval Architects of Japan, Vol.
96: 37-42.
Watanabe, Y. et al. (1956). A
Proposed Standard of Stability for Passenger Ships (Part III: Ocean-going
and Coasting Ships), Journal of Society of Naval Architects of Japan,
Vol. 99: 29-46.
Yamagata, M. (1959). Standard of Stability
Adopted in Japan, Transaction of the Institution of Naval Architects,
101:417-443.