Large-amplitude time-domain simulation tool for marine and offshore motion prediction
Tóm tắt
Từ khóa
Tài liệu tham khảo
R. Beck, A. Troesch, Documentation and User’s manual for the Computer Program SHIPMO. BM. Technical Report, University of Michigan, Ann Arbor (1989)
V.L. Belenky, K.M. Weems, W.M. Lin, J.R. Paulling, Probabilistic analysis of roll parametric resonance in head seas, in Proceedings of the 8th International Conference on Stability of Ships and Ocean Vehicles (2003), pp. 325–340
H. Bingham, Simulating ship motions in the time domain. Ph.D. Thesis (1994)
G. Bulian, Development of analytical nonlinear models for parametric roll and hydrostatic restoring variations in regular and irregular waves. Ph.D. Thesis (2006)
W. Cummins, The impulse response function and ship motions. Technical Report, David Taylor Model Basin, Washington, D.C. (1962)
W. France, M. Levadou, T.W. Treakle, J.R. Paulling, R.K. Michel, C. Moore, An investigation of head-sea parametric rolling and its influence on container lashing systems. Mar. Technol. 40(1), 1–19 (2003)
A. Francescutto, G. Bulian, C. Lugni, Nonlinear and stochastic aspects of parametric rolling modeling. Mar. Technol. 41(2), 74–81 (2004)
W. Froude, On the rolling of ships. Technical Report, Royal Institution of Naval Architects, London (1861)
A. Guha, Development of a Computer Program for Three Dimensional Frequency Domain Analysis of Zero Speed First Order Wave Body Interaction (Masters Texas A&M University, College Station, 2012)
A. Guha, J. Falzarano, Development of a Computer Program for three dimensional analysis of zero speed first order wave body interaction in frequency domain, in Volume 5: Ocean Engineering, ASME (2013), p. V005T06A094
A. Guha, J.M. Falzarano, Estimation of hydrodynamic forces and motion of ships with steady forward speed. Int. Shipbuild. Prog. (2015, under review)
Y. Himeno, Prediction of ship roll damping: a state of the art. Technical Report, 239, The University of Michigan, Ann Arbor (1981)
J. Hua, W. Wang, J. Chang, A representation of GM-variation in waves by the Volterra system. J. Mar. Sci. Technol. 7(2), 94–100 (1999)
Y. Ikeda, Y. Himeno, N. Tanaka, A prediction method for ship roll damping. Technical Report, University of Osaka Prefecture, Osaka (1978)
J. Journée, Theoretical manual of SEAWAY. Technical Report. February, Delft University of Technology, Delft, Netherlands (2001)
T. Kim, Y. Kim, Numerical study on difference-frequency-induced parametric roll occurrence. Int. J. Offshore Polar Eng. 21(2), 111–120 (2011)
B. King, Time-domain analysis of wave exciting forces on ships and bodies. Doctoral, The University of Michigan, Ann Arbor (1987)
C. Lee, J. Newman, Computation of wave effects using the panel method. Numer. Models Fluid Struct. Interact. 42, 211–251 (2005)
S. Liapis, Time-domain analysis of ship motions. Ph.D. Thesis, The University of Michigan (1986)
W. Lin, D. Yue, Numerical solutions for large-amplitude ship motions in the time domain, in 18th Symposium on Naval Hydrodynamcis, Washington D.C. (1991), pp. 41–66
A.R. Magee, Large-amplitude ship motions in the time domain. Doctoral, The University of Michigan (1991)
H. Moideen, J.M. Falzarano, S. Sharma, Parametric roll of container ships in head waves. Int. J. Ocean Syst. Eng. 2(4), 239–255 (2012)
H. Moideen, A. Somayajula, J.M. Falzarano, Parametric roll of high speed ships in regular waves, in Proceedings of ASME 2013 32nd International Conferences on Ocean, Offshore and Arctic Engineering, ASME, vol. 5 (2013), p. V005T06A095
H. Moideen, A. Somayajula, J.M. Falzarano, Application of volterra series analysis for parametric rolling in irregular seas. J. Ship Res. 58(2), 1–9 (2014)
D. Nakos, P. Sclavounos, Ship motions by a three-dimensional Rankine panel method, in 18th Symposium on Naval Hydrodynamcis (1991), pp. 21–40
M.A. Neves, C.A. Rodríguez, Influence of non-linearities on the limits of stability of ships rolling in head seas. Ocean Eng. 34(11), 1618–1630 (2007)
M.A.S. Neves, Rodríguez Ca, On unstable ship motions resulting from strong non-linear coupling. Ocean Eng. 33(14–15), 1853–1883 (2006)
J. Newman, The Theory of Ship Motions, vol. 18 (Academic Press, New York, 1978)
T. Ogilvie, Recent progress toward the understanding and prediction of ship motions, in 5th Symposium on Naval Hydrodynamics (1964), pp. 3–80
T. Ogilvie, Second-order hydrodynamic effects on ocean platforms, in International Workshop on Ship and Platform Motions, ed. by R.W. Yeung (University of California, Berkley, Berkley, 1983), pp. 205–265
T. Ogilvie, E. Tuck, A rational strip theory of ship motions: part I. Technical Report, The University of Michigan (1969)
J. Paulling, Parametric rolling of ships: then and now, in Contemporary Ideas on Ship Stability and Capsizing in Waves, Fluid Mechanics and Its Applications, ed. by S.N.M. Almeida, V.L. Belenky, J.O. Kat, K. Spyrou, N. Umeda (Springer, Dordrecht, 2011), pp. 347–360
J.R. Paulling, The transverse stability of a ship in a longitudinal seaway. J. Ship Res. 4(4), 37–49 (1961)
N. Salvesen, E. Tuck, O. Faltinsen, Ship motions and sea loads, in Transactions-Society of Naval Architects and Marine Engineers (Society of Naval Architects and Marine Engineers, New York, 1971), pp. 1–30
D. Sen, Time-domain computation of large amplitude 3D ship motions with forward speed. Ocean Eng. 29(8), 973–1002 (2002)
A. Somayajula, J.M. Falzarano, Non-linear dynamics of parametric roll of container ship in irregular seas, in Proceedings of ASME 2014 33rd International Conferences on Ocean, Offshore and Arctic Engineering, San Francisco (2014)
A. Somayajula, J.M. Falzarano, Validation of volterra series approach for modelling parametric rolling of ships (under review), in Proceedings of ASME 2015 34th International Conferences on Ocean, Offshore and Arctic Engineering (American Society of Mechanical Engineers, St. Johns, NL, 2015)
A. Somayajula, A. Guha, J. Falzarano, H.H. Chun, K.H. Jung, Added resistance and parametric roll prediction as a design criteria for energy efficient ships. Int. J. Ocean Syst. Eng. 4(2), 117–136 (2014)
K.J. Spyrou, Simple analytical criteria for parametric rolling, in Contemporary Ideas on Ship Stability and Capsizing in Waves, Fluid Mechanics and Its Applications, vol. 97, ed. by Santos Neves M. Almeida, V.L. Belenky, J.O. Kat, K. Spyrou, N. Umeda (Springer, Dordrecht, 2011), pp. 253–266
K.J. Spyrou, I. Tigkas, G. Scanferla, N. Pallikaropoulos, N. Themelis, Prediction potential of the parametric rolling behaviour of a post-panamax containership. Ocean Eng. 35(11–12), 1235–1244 (2008)
Z. Su, J.M. Falzarano, Gaussian and non-Gaussian cumulant neglect application to large amplitude rolling in random waves. Int. Shipbuild. Prog. 58, 97–113 (2011)