Mathematical Modeling of Marine Structures
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C. M. Larsen | Carl M. Larsen | Armin Troesch | Celso P. Pesce | Ioannis K. Chatjigeorgiou | I. Chatjigeorgiou | A. Troesch | C. Pesce
[1] G. H. Keulegan. Gradual damping of solitary waves , 1948 .
[2] R. Robinett,et al. Flexible multibody systems–fluid interaction , 1998 .
[3] K. Bathe,et al. Stability and patch test performance of contact discretizations and a new solution algorithm , 2001 .
[4] M Ohkusu,et al. THE GREEN FUNCTION METHOD FOR SHIP MOTIONS AT FORWARD SPEED , 1992 .
[5] Bo Cerup Simonsen. Ship grounding on rock-I. Theory , 1997 .
[6] Bin Teng,et al. A comparison of two methods for calculating solid angle coefficients in a BIEM numerical wave tank , 2010 .
[7] Douglas G. Dommermuth,et al. The initialization of nonlinear waves using an adjustment scheme , 2000 .
[8] R. Eatock Taylor,et al. Numerical simulation of sloshing waves in a 3D tank , 1998 .
[9] Terry Hedges,et al. Investigating the Lengths of Scale Model Tests to Determine Mean Wave Overtopping Discharges , 2008 .
[10] R. M. Mamedov,et al. Particle tracking method in the approach for prediction of oil slick transport in the sea: modelling oil pollution resulting from river input , 2004 .
[11] L. Schwartz. Computer extension and analytic continuation of Stokes’ expansion for gravity waves , 1974, Journal of Fluid Mechanics.
[12] George Gabriel Stokes. Mathematical and Physical Papers: 1895: The Outskirts of the Solitary Wave , 2009 .
[13] M. Nedeljkov. Infinitely narrow soliton solutions to systems of conservation laws. , 2001 .
[14] C. Dalton,et al. NUMERICAL PREDICTION OF FORCE ON RECTANGULAR CYLINDERS IN OSCILLATING VISCOUS FLOW , 1999 .
[15] Holger Schüttrumpf,et al. EurOtop, European Overtopping Manual - Wave overtopping of sea defences and related structures: Assessment manual , 2007 .
[16] Mariano Buccino,et al. 2D Wave setup behind submerged breakwaters , 2008 .
[17] Lidija Zdravković,et al. Pull-out Capacity of Bucket Foundations in Soft Clay , 2001 .
[18] Inigo J. Losada,et al. Harmonic generation past a submerged porous step , 1997 .
[19] Zhimin Tan,et al. Time Domain Simulation of the 3D Bending Hysteresis Behaviour of an Unbonded Flexible Riser , 2007 .
[20] Hsiang Wang,et al. Modeling of oil evaporation in aqueous environment , 1977 .
[21] W. Rider,et al. Reconstructing Volume Tracking , 1998 .
[22] Propagation of a solitary wave over rigid porous beds , 2008 .
[23] Lin Hong,et al. Crushing resistance of web girders in ship collision and grounding , 2008 .
[24] Robert G. Dean,et al. Wave transformation by two-dimensional bathymetric anomalies with sloped transitions , 2003 .
[25] Michele La Rocca,et al. ON THE ANALYSIS OF SLOSHING OF WATER IN RECTANGULAR CONTAINERS: NUMERICAL STUDY AND EXPERIMENTAL VALIDATION , 1996 .
[26] Pascal Lafon,et al. The effects of reflection coefficient of the harbour sidewall on the performance of floating breakwaters , 2008 .
[27] M. Randolph,et al. Experimental and theoretical studies of deep penetrating anchors , 2004 .
[28] J. Colombeau,et al. Elementary introduction to new generalized functions , 1985 .
[29] Robert L. Taylor,et al. Improved versions of assumed enhanced strain tri-linear elements for 3D finite deformation problems☆ , 1993 .
[30] Atef F. Saleeb,et al. Friction-contact analysis using a mixed finite element method , 1989 .
[31] K. C. Biswal,et al. Non‐linear sloshing in partially liquid filled containers with baffles , 2006 .
[32] Hideomi Ohtsubo,et al. An upper-bound solution to the problem of plate tearing , 1995 .
[33] Wolfgang Rodi,et al. Examples of calculation methods for flow and mixing in stratified fluids , 1987 .
[34] A. Clément,et al. Wave energy in Europe: current status and perspectives , 2002 .
[35] Z Tan,et al. ON THE INFLUENCE OF INTERNAL SLIP BETWEEN COMPONENT LAYERS ON THE DYNAMIC RESPONSE OF UNBONDED FLEXIBLE PIPE , 1991 .
[36] M. Lützen. Ship collision damage , 2002 .
[37] Alain Cariou,et al. Liquid sloshing in ship tanks: a comparative study of numerical simulation , 1999 .
[38] Jairo Bastos de Araujo,et al. High Holding Power Torpedo Pile: Results for the First Long Term Application , 2004 .
[39] D. V. Evans,et al. Efficient Calculation of Hydrodynamic Properties of OWC-Type Devices , 1997 .
[40] O. Madsen,et al. WAVES GENERATED BY A PISTON-TYPE WAVEMAKER , 1970 .
[41] Holger Schüttrumpf,et al. Prediction of overtopping , 2007 .
[42] C. Linton,et al. The interaction of waves with horizontal cylinders in two-layer fluids , 1995, Journal of Fluid Mechanics.
[43] M. D. Sikirić,et al. A new approach to bathymetry smoothing in sigma-coordinate ocean models , 2009 .
[44] Alan Brown,et al. Collision Scenarios and Probabilistic Collision Damage , 2002 .
[45] M. Lutchansky. Axial Stresses in Armor Wires of Bent Submarine Cables , 1969 .
[46] Fredrik Soreide,et al. Deep Ocean Mining Reconsidered AStudy of the Manganese Nodule Deposits In Cook Island , 2001 .
[47] J. Rice,et al. Finite-element formulations for problems of large elastic-plastic deformation , 1975 .
[48] R. Codina. Pressure Stability in Fractional Step Finite Element Methods for Incompressible Flows , 2001 .
[49] H. Schäffer,et al. Boussinesq-type formulations for fully nonlinear and extremely dispersive water waves: derivation and analysis , 2003, Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.
[50] A note on stabilizing the Benjamin–Feir instability , 2006, Journal of Fluid Mechanics.
[51] H. Mores,et al. Measurements Of Oil Spill Spreading In A Wave Tank Using Digital Image Processing , 1970 .
[52] A. Scott. THE SOLITARY WAVE , 1990 .
[53] Michael McVay,et al. LOAD AND RESISTANCE FACTOR DESIGN (LRFD) FOR DEEP FOUNDATIONS , 2004 .
[54] Jaroslaw Sobieszczanski-Sobieski,et al. OPTIMIZATION OF COUPLED SYSTEMS: A CRITICAL OVERVIEW OF APPROACHES , 1994 .
[55] Geir Skeie,et al. Efficient Fatigue Analysis of Helix Elements in Umbilicals and Flexible Risers , 2010 .
[56] N. Crout,et al. A thermodynamic model of freshwater Antarctic lake ice , 2008 .
[57] J O Kat. The Numerical Modeling of Ship Motions and Capsizing in Severe Seas , 1990 .
[58] Akira Nakayama,et al. A Macroscopic Turbulence Model for Flow in a Porous Medium , 1999 .
[59] Takuji Waseda,et al. Laboratory observations of wave group evolution, including breaking effects , 1999, Journal of Fluid Mechanics.
[60] Jong-Su Choi,et al. Conceplual Design of a Hybrid Pick-up Device For Deep Ocean Mining , 1997 .
[61] Dag Fergestad,et al. Handbook on Design and Operation of Flexible Pipes , 2014 .
[62] A. Gsponer. A concise introduction to Colombeau generalized functions and their applications in classical electrodynamics , 2006, math-ph/0611069.
[63] M. Kawahara,et al. TWO-DIMENSIONAL SLOSHING ANALYSIS BY LAGRANGIAN FINITE ELEMENT METHOD , 1990 .
[64] John W. Miles,et al. Weakly dispersive nonlinear gravity waves , 1985, Journal of Fluid Mechanics.
[65] Konstantin Kokkinowrachos,et al. BEHAVIOUR OF VERTICAL BODIES OF REVOLUTION IN WAVES , 1986 .
[66] Apostolos Papanikolaou,et al. Time-domain hybrid method for simulating large amplitude motions of ships advancing in waves , 2011 .
[67] K. Hutter,et al. On the development of the theory of the solitary wave. A historical essay , 1991 .
[68] J. Paik,et al. A semi-analytical method for the elastic–plastic large deflection analysis of stiffened panels under combined biaxial compression/tension, biaxial in-plane bending, edge shear, and lateral pressure loads , 2005 .
[69] T. Hill,et al. State of the Art Analytical Tools Improve Optimization of Unbonded Flexible Pipes for Deepwater Environments , 2003 .
[71] Apostolos Papanikolaou,et al. Optimization of routing with uncertainties , 2011 .
[72] Alistair G.L. Borthwick,et al. Simulation of sloshing motions in fixed and vertically excited containers using a 2-D inviscid σ-transformed finite difference solver , 2003 .
[73] Peter W. Bearman,et al. A study of forces, circulation and vortex patterns around a circular cylinder in oscillating flow , 1988, Journal of Fluid Mechanics.
[74] R. M. Mamedov,et al. Prediction of the Dispersal of Oil Transport in the Caspian Sea Resulting from a Continuous Release , 2000 .
[75] R. H. Knapp,et al. Derivation of a new stiffness matrix for helically armoured cables considering tension and torsion , 1979 .
[76] Bo Cerup Simonsen,et al. Rapid Prediction of Damage to Struck and Striking Vessels in a Collision Event , 2000 .
[77] C. L. Bournazel,et al. CALCULATION OF STRESSES AND SLIP IN STRUCTURAL LAYERS OF UNBONDED FLEXIBLE PIPES , 1987 .
[78] Derek M. Causon,et al. Numerical simulation of wave overtopping of coastal structures using the non-linear shallow water equations , 2000 .
[79] A CFD study of the interaction of oscillatory flows with a pair of side-by-side cylinders , 2010 .
[80] Balance of average annual fresh water inflow into the Adriatic Sea , 1996 .
[81] Alexander F. Shchepetkin,et al. The regional oceanic modeling system (ROMS): a split-explicit, free-surface, topography-following-coordinate oceanic model , 2005 .
[82] C. Mader. Numerical modeling of water waves , 1979 .
[83] P. Liu,et al. NUMERICAL SIMULATIONS OF THE 2004 INDIAN OCEAN TSUNAMIS — COASTAL EFFECTS , 2007 .
[84] J. Colombeau,et al. Multiplications of distributions in elasticity and hydrodynamics , 1988 .
[85] Damodar Maity,et al. Effect of baffles on a partially filled cubic tank: Numerical simulation and experimental validation , 2009 .
[86] K. Tabri. Dynamics of ship collisions , 2010 .
[87] P. Anagnostopoulos,et al. Viscous oscillatory flow around a circular cylinder at low Keulegan-Carpenter numbers and frequency parameters , 1998 .
[88] Young Ho Kim,et al. Numerical simulation of sloshing flows with impact load , 2001 .
[89] Preben Terndrup Pedersen,et al. The Mechanics of Ship Collisions , 1999 .
[90] P. G. Bergan,et al. Incremental variational principles and finite element models for nonlinear problems , 1976 .
[91] Bang-Fuh Chen,et al. Complete two-dimensional analysis of sea-wave-induced fully non-linear sloshing fluid in a rigid floating tank , 2000 .
[92] J. A. Witz,et al. On the flexural structural behaviour of flexible pipes, umbilicals and marine cables , 1992 .
[93] Tomasz Wierzbicki. Concertina tearing of metal plates , 1995 .
[94] Jin Wu. The sea surface is aerodynamically rough even under light winds , 1994 .
[95] Joseph B. Keller. Shallow-water theory for arbitrary slopes of the bottom , 2003, Journal of Fluid Mechanics.
[96] Jeom Kee Paik,et al. A semi-analytical method for the elastic-plastic large deflection analysis of welded steel or aluminum plating under combined in-plane and lateral pressure loads , 2001 .
[97] E. Kebadze,et al. Non-Linear Bending Behaviour of Offshore Flexible Pipes , 1999 .
[98] Javier L. Lara,et al. Numerical analysis of wave overtopping of rubble mound breakwaters , 2008 .
[99] U. A. A. Mirza. Pile short-term capacity in clays , 1999 .
[100] D. Dietrich,et al. High-resolution numerical model for predicting the transport and dispersal of oil spilled in the Black Sea. , 2010 .
[101] Tom Bruce,et al. Violent wave overtopping - measurements at large and small scale , 2003 .
[102] S. Sævik,et al. Theoretical and experimental studies of the axisymmetric behaviour of complex umbilical cross-sections , 2005 .
[103] Luís M.C. Gato,et al. TURBINE-CONTROLLED WAVE ENERGY ABSORPTION BY OSCILLATING WATER COLUMN DEVICES , 1990 .
[104] Hakan Akyildiz,et al. Numerical Computation of Pressure in a Rigid Rectangular Tank due to Large Amplitude Liquid Sloshing , 2001 .
[105] I-Shih Liu,et al. A Nonlinear Heat Equation with Temperature-Dependent Parameters , 2006 .
[106] Hakan Akyildiz,et al. Nonlinear modeling of liquid sloshing in a moving rectangular tank , 2002 .
[107] C. Mei. The applied dynamics of ocean surface waves , 1983 .
[108] Ming Zhao,et al. Direct numerical simulation of oscillatory flow around a circular cylinder at low Keulegan–Carpenter number , 2010, Journal of Fluid Mechanics.
[109] M. Gent,et al. The modelling of wave action on and in coastal structures , 1994 .
[110] Jon C. Helton,et al. Latin Hypercube Sampling and the Propagation of Uncertainty in Analyses of Complex Systems , 2002 .
[111] André Nachbin,et al. A Terrain-Following Boussinesq System , 2003, SIAM J. Appl. Math..
[112] Nils Sødahl,et al. Use of Weight Elements to Improve the Dynamic Performance of Umbilicals , 2010 .
[113] R. Dressler,et al. NEW NONLINEAR SHALLOW-FLOW EQUATIONS WITH CURVATURE , 1978 .
[114] I. Janekovic,et al. Hindcasting the Adriatic Sea surface temperature and salinity: A recent modeling experience , 2010 .
[115] P. K. Panigrahy,et al. Experimental studies on sloshing behavior due to horizontal movement of liquids in baffled tanks , 2009 .
[116] J. Dold,et al. Unsteady water wave modulations: fully nonlinear solutions and comparison with the nonlinear Schrodinger equation , 1999 .
[117] B. Teng,et al. Comparisons of internal solitary wave and surface wave actions on marine structures and their responses , 2011 .
[118] Jong-Su Choi,et al. Transient Dynamic Analysis of Tracked Vehicles On Extremely Soft Cohesive Soil , 2002 .
[119] Chiang C. Mei,et al. Wave power extraction from an oscillating water column at the tip of a breakwater , 2009, Journal of Fluid Mechanics.
[120] P. Oddo,et al. Coastal sea responses to atmospheric forcings at two different resolutions , 2011 .
[121] Graham Feld. Static and cyclic mechanical behaviour of helically-wound subsea power cables , 1992 .
[122] W. Cummins. THE IMPULSE RESPONSE FUNCTION AND SHIP MOTIONS , 2010 .
[123] Ge Wang,et al. Some Recent Studies on Plastic Behavior of Plates Subjected to Large Impact Loads , 2002 .
[124] Masaru Ikehata. An inverse source problem for the heat equation and the enclosure method , 2006 .
[125] V. Maslov,et al. Asymptotic soliton-form solutions of equations with small dispersion , 1981 .
[126] Numerical simulation of viscous oscillatory flow past four cylinders in square arrangement , 2011 .
[127] Sonja Kuhnt,et al. Design and analysis of computer experiments , 2010 .
[128] S. Spangenberg,et al. Ship impacts: Bow collisions , 1993 .
[129] Shengming Zhang. Plate tearing and bottom damage in ship grounding , 2002 .
[130] J. A. Pinkster,et al. Computation of the first and second order wave forces on oscillating bodies in regular waves , 1977 .
[131] Sheldon Drobot,et al. Using remote sensing data to develop seasonal outlooks for Arctic regional sea-ice minimum extent , 2007 .
[132] Leopoldo Franco,et al. Wave Overtopping on Vertical and Composite Breakwaters , 1995 .
[133] Apostolos Papanikolaou,et al. Prediction of added resistance of ships in waves , 2011 .
[134] Kwang-Hyun Nam,et al. An Economic Feasibility Study of Manganese Nodule in Korea Area: Clarion-Clipperton Fracture Zone , 2004 .
[135] A. B. Finkelstein. The initial value problem for transient water waves , 1957 .
[136] Vlad Isakov,et al. A case study of bora-driven flow and density changes on the adriatic shelf (January 1987) , 2001 .
[137] Nigel Barltrop,et al. Floating structures: a guide for design and analysis , 1998 .
[138] Various. Design of seawalls allowing for wave overtopping , 1980 .
[139] E. Laitone,et al. The second approximation to cnoidal and solitary waves , 1960, Journal of Fluid Mechanics.
[140] W. Washington,et al. A large-scale numerical model of sea ice , 1979 .
[141] Timothy W. Simpson,et al. Metamodels for Computer-based Engineering Design: Survey and recommendations , 2001, Engineering with Computers.
[142] Vladimir P. Krasitskii,et al. On reduced equations in the Hamiltonian theory of weakly nonlinear surface waves , 1994, Journal of Fluid Mechanics.
[143] Masaru Tsujimoto,et al. A Practical Correction Method for Added Resistance in Waves , 2008 .
[144] M. Kashiwagi,et al. Hydrodynamics of a body floating in a two-layer fluid of finite depth. Part 1. Radiation problem , 2004 .
[145] S. Savage,et al. The motion of a finite mass of granular material down a rough incline , 1989, Journal of Fluid Mechanics.
[146] Hyun Moo Koh,et al. Fluid–structure interaction analysis of 3‐D rectangular tanks by a variationally coupled BEM–FEM and comparison with test results , 1998 .
[147] Anders Lyckegaard,et al. A method for prediction of the equilibrium state of a long and slender wire on a frictionless toroid applied for analysis of flexible pipe structures , 2012 .
[148] Carlos Alberto Duarte de Lemos,et al. Flexible Riser Fatigue Re-Evaluation to Extend the Service Life , 2008 .
[149] Joon-Hyung Cho,et al. Finite element analysis of resonant sloshing response in 2-D baffled tank , 2005 .
[150] Chang Lin,et al. Vortex shedding induced by a solitary wave propagating over a submerged vertical plate , 2005 .
[151] O. M. Faltinsen,et al. Prediction of Resistance and Propulsion of a Ship in a Seaway , 1980 .
[152] Derek M. Causon,et al. Numerical solutions of the shallow water equations with discontinuous bed topography , 2002 .
[153] Shallow water equations for large bathymetry variations , 2011, 1103.5292.
[154] Peter W. Bearman,et al. A NUMERICAL STUDY OF OSCILLATORY FLOW ABOUT A CIRCULAR CYLINDER FOR LOW VALUES OF BETA PARAMETER , 1996 .
[155] V. Sriram,et al. Numerical simulation of 2D sloshing waves due to horizontal and vertical random excitation , 2006 .
[156] S. Sævik. Theoretical and experimental studies of stresses in flexible pipes , 2011 .
[157] Ching-Jer Huang,et al. On the interaction of a solitary wave and a submerged dike , 2001 .
[158] Apostolos Papanikolaou,et al. A time-domain hybrid method for calculating hydrodynamic forces on ships in waves , 2009 .
[159] E. Oñate,et al. The particle finite element method. An overview , 2004 .
[160] Frederick H Imlay. THE COMPLETE EXPRESSIONS FOR ADDED MASS OF A RIGID BODY MOVING IN AN IDEAL FLUID , 1961 .
[161] David F. Rogers,et al. THE SOCIETY OF NAVAL ARCHITECTS AND MARINE ENGINEERS , 1977 .
[162] Claus Kristensen,et al. Managing Fatigue In Deepwater Flexible Risers , 2008 .
[163] Emilio F. Campana,et al. A domain decomposition approach to compute wave breaking (wave‐breaking flows) , 2003 .
[164] Annette M. Harte,et al. THREE DIMENSIONAL ANALYTICAL SIMULATION OF FLEXIBLE PIPE WALL STRUCTURE , 1992 .
[165] Dominic E. Reeve,et al. Numerical study of combined overflow and wave overtopping over a smooth impermeable seawall , 2008 .
[166] Emma Young. Monsters of the deep , 2003 .
[167] A. H. Al-Rabeh. Estimating surface oil spill transport due to wind in the Arabian Gulf , 1994 .
[168] F.E.N. Brandão,et al. Albacora Leste Field Development- FPSO P-50 Mooring System Concept and Installation , 2006 .
[169] Michael James Sasena,et al. Flexibility and efficiency enhancements for constrained global design optimization with kriging approximations. , 2002 .
[170] Bo Cerup Simonsen,et al. Experiments and theory on deck and girder crushing , 1999 .
[171] Denys Dutykh,et al. Dissipative Boussinesq equations , 2007 .
[172] Edison Castro Prates de Lima,et al. A Joint Probability Model for Environmental Parameters , 2011 .
[173] J. Fenton. A ninth-order solution for the solitary wave , 1972, Journal of Fluid Mechanics.
[174] M.R.A. van Gent,et al. Wave Action On and In Permeable Structures , 1995 .
[175] Ronald W. Yeung,et al. Unsteady three-dimensional sources for a two-layer fluid of finite depth and their applications , 2011 .
[176] Dick K. P. Yue,et al. Numerical Solutions for Large-Amplitude Ship Motions in the Time Domain , 1991 .
[177] R. O. Davis,et al. A deterministic-statistical sea ice drift forecast model , 2012 .
[178] J. Ferziger,et al. A ghost-cell immersed boundary method for flow in complex geometry , 2002 .
[179] D. Budikova,et al. Role of Arctic sea ice in global atmospheric circulation: A review , 2009 .
[180] Olav F. Rognebakke,et al. Classification of three-dimensional nonlinear sloshing in a square-base tank with finite depth , 2005 .
[181] Pengzhi Lin,et al. A numerical study of breaking waves in the surf zone , 1998, Journal of Fluid Mechanics.
[182] James E. Skjelbreia,et al. Measurmment of Velocities in Solitary Waves , 1982 .
[183] Generalized Functions and Infinitesimals , 2006 .
[184] Eugenio Oñate,et al. A Lagrangian meshless finite element method applied to fluid-structure interaction problems , 2003 .
[185] S. Koshizuka,et al. International Journal for Numerical Methods in Fluids Numerical Analysis of Breaking Waves Using the Moving Particle Semi-implicit Method , 2022 .
[186] J. Zimmerman,et al. New Industry Guidelines for Fatigue Analysis of Unbonded Flexible Risers , 2006 .
[187] J. C. Simo,et al. Geometrically non‐linear enhanced strain mixed methods and the method of incompatible modes , 1992 .
[188] Chiang C. Mei,et al. Resonant reflection of surface water waves by periodic sandbars , 1985, Journal of Fluid Mechanics.
[189] S. Narasimha Rao,et al. Studies on pullout capacity of anchors in marine clays for mooring systems , 2006 .
[190] Hervé Le Sourne,et al. External dynamics of ship-submarine collision , 2001 .
[191] B. Perthame,et al. A new model of Saint Venant and Savage–Hutter type for gravity driven shallow water flows , 2003 .
[192] Costas E. Synolakis,et al. The runup of solitary waves , 1987, Journal of Fluid Mechanics.
[193] António Sarmento,et al. Wave generation by an oscillating surface-pressure and its application in wave-energy extraction , 1985, Journal of Fluid Mechanics.
[194] Dick K. P. Yue,et al. A high-order spectral method for the study of nonlinear gravity waves , 1987, Journal of Fluid Mechanics.
[195] Chang-Ho Lee,et al. A Self-Propelled Deep-Seabed Miner and Lessons From Shallow Water Tests , 2010 .
[196] Philippe Rigo,et al. Extension of the Super-Elements Method to the Analysis of Oblique Collision Between Two Ships , 2012 .
[197] S Saevik,et al. ON STRESSES AND FATIGUE IN FLEXIBLE PIPES , 1992 .
[198] Gilberto Bruno Ellwanger,et al. Undrained Load Capacity of Torpedo Anchors Embedded in Cohesive Soils , 2011 .
[199] W. Hibler. A Dynamic Thermodynamic Sea Ice Model , 1979 .
[200] J. Frandsen. Sloshing motions in excited tanks , 2004 .
[201] C. W. Hirt,et al. Volume of fluid (VOF) method for the dynamics of free boundaries , 1981 .
[202] Odd M. Faltinsen,et al. A numerical nonlinear method of sloshing in tanks with two-dimensional flow , 1978 .
[203] M. J. Lighthill,et al. Contributions to the Theory of Waves in Non-linear Dispersive Systems , 1965 .
[204] Zi-Ming Zheng. Theoretical analyses of wedge cutting through metal plates , 1994 .
[205] R. Ibrahim. Liquid Sloshing Dynamics: Theory and Applications , 2005 .
[206] Hitoshi Gotoh,et al. Lagrangian Particle Method for Simulation of Wave Overtopping on a Vertical Seawall , 2005 .
[207] I. V. Sturova. Problems of radiation and diffraction for a circular cylinder in a stratified fluid , 1999 .
[208] Josselin Garnier,et al. Effective Behavior of Solitary Waves over Random Topography , 2007, Multiscale Model. Simul..
[209] S. Shao,et al. Incompressible SPH simulation of wave breaking and overtopping with turbulence modelling , 2006 .
[210] Masashi Kashiwagi,et al. A hybrid technique using particle and boundary-element methods for wave-body interaction problems , 2007 .
[211] Subrata K. Chakrabarti,et al. Handbook of Offshore Engineering , 2005 .
[212] Pengzhi Lin,et al. Wave–current interaction with a vertical square cylinder , 2003 .
[213] M. Arafa. FINITE ELEMENT ANALYSIS OF SLOSHING IN LIQUID-FILLED CONTAINERS , 2006 .
[214] C. P. Sparks,et al. The influence of tension, pressure and weight on pipe and riser deformations and stresses , 1984 .
[215] J. Fay. The Spread of Oil Slicks on a Calm Sea , 1969 .
[216] D. Graham,et al. Simulation of wave overtopping by an incompressible SPH model , 2006 .
[217] G. Maykut,et al. Some results from a time‐dependent thermodynamic model of sea ice , 1971 .
[218] Tomasz Wierzbicki,et al. Crushing damage of web girders under localized static loads , 1995 .
[219] João C.C. Henriques,et al. Dynamics and optimization of the OWC spar buoy wave energy converter , 2012 .
[220] Gianluca Iaccarino,et al. IMMERSED BOUNDARY METHODS , 2005 .
[221] Bin Teng,et al. Free-surface evolution and wave kinematics for nonlinear uni-directional focused wave groups , 2009 .
[222] Mohammed Raoof,et al. Analysis of Multilayered Structural Strands , 1988 .
[223] Charles H. K. Williamson,et al. Sinusoidal flow relative to circular cylinders , 1985, Journal of Fluid Mechanics.
[224] Jong-Su Choi,et al. Probability distribution for the shear strength of seafloor sediment in the KR5 area for the development of manganese nodule miner , 2011 .
[225] Hyun-Seung Lee,et al. Experimental and analytical investigations on the response of stiffened plates subjected to lateral collisions , 2009 .
[226] R. Verzicco,et al. Combined Immersed-Boundary Finite-Difference Methods for Three-Dimensional Complex Flow Simulations , 2000 .
[227] Carlos Magluta,et al. On the response of flexible risers to loads imposed by hydraulic collars , 2009 .
[228] B. Teng,et al. New higher-order boundary element methods for wave diffraction/radiation , 1995 .
[229] Wayne H. Enright,et al. Method of lines solutions of the extended Boussinesq equations , 2005 .
[230] D. Yue,et al. Effects of wavelength ratio on wave modelling , 1993, Journal of Fluid Mechanics.
[231] N. Brzovíc. Factors affecting the Adriatic cyclone and associated windstorms , 1999 .
[232] Ueda Yukio,et al. The idealized structural unit method and its application to deep girder structures , 1984 .
[233] H. N. Abramson,et al. The dynamic behavior of liquids in moving containers - Introduction , 1966 .
[234] Nils Sødahl,et al. Bend Stiffener Design for Umbilicals , 2011 .
[235] A. Chorin. Numerical solution of the Navier-Stokes equations , 1968 .
[236] Apostolos Papanikolaou,et al. On integral-equation-methods for the evaluation of motions and loads of arbitrary bodies in waves , 1985 .
[237] Enmin Feng,et al. Parameter identification and application of a distributed parameter coupled system with a movable inner boundary , 2011, Comput. Math. Appl..
[238] C. Sarrico. Entire Functions of Certain Singular Distributions and Interaction of Delta-Waves in Nonlinear Conservation Laws , 2010 .
[239] Tom Andersen,et al. Hydraulic Response of Rubble Mound Breakwaters: scale effects - berm breakwaters , 2006 .
[240] M. Oberguggenberger,et al. Generalized solutions to the Korteweg-de Vries and the regularized long-wave equations , 1992 .
[241] Manuel del Jesus,et al. Three-dimensional interaction of waves and porous coastal structures: Part II: Experimental validation , 2012 .
[242] Eugenio Oñate,et al. The meshless finite element method , 2003 .
[243] Jeom Kee Paik,et al. Ultimate limit state design of steel-plated structures , 2003 .
[244] Hidetsugu Iwashita,et al. Estimations of Hydrodynamic Forces Acting on Ships Advancing in the Carm Water and Waves by a Time-Domain Hybrid Method , 2004 .
[245] P. Liu,et al. An analysis of 2004 Sumatra earthquake fault plane mechanisms and Indian Ocean tsunami , 2006 .
[246] Alberto Omar Vazquez-Hernandez,et al. Reliability-based comparative study for mooring lines design criteria , 2006 .
[247] T. Simpson,et al. Computationally Inexpensive Metamodel Assessment Strategies , 2002 .
[248] T. Brooke Benjamin,et al. The disintegration of wave trains on deep water Part 1. Theory , 1967, Journal of Fluid Mechanics.
[249] Eugenio Oñate,et al. Polyhedrization of an arbitrary 3D point set , 2003 .
[250] Pengzhi Lin,et al. Three-dimensional liquid sloshing in a tank with baffles , 2009 .
[251] Boo Cheong Khoo,et al. Finite element analysis of two-dimensional nonlinear sloshing problems in random excitations , 2005 .
[252] Apostolos Papanikolaou,et al. Application of a Nonlinear Time Domain Hybrid Method to the Study of a Semi-Submersible In Waves , 2012 .
[253] Jong-Su Choi,et al. Comparative Study On Tracked Vehicle Dynamics On Soft Soil : Single-Body Dynamics Vs. Multi -Body Dynamics , 2003 .
[254] Wing Kam Liu,et al. Nonlinear Finite Elements for Continua and Structures , 2000 .
[255] S. Liang,et al. Solution of shallow-water equations using least-squares finite-element method , 2008 .
[256] Eugenio Oñate,et al. Advances in the particle finite element method for the analysis of fluid-multibody interaction and bed erosion in free surface flows , 2008 .
[257] Tae Hee Lee,et al. Prediction For Motion of Tracked Vehicle Traveling On Soft Soil Using Kriging Metamodel , 2007 .
[258] J. Colombeau,et al. New Generalized Functions and Multiplication of Distributions , 2012 .
[259] P. Terndrup Pedersen. Review and application of ship collision and grounding analysis procedures , 2010 .
[260] Benedict D. Rogers,et al. Numerical Modeling of Water Waves with the SPH Method , 2006 .
[261] C. Gardiner. Handbook of Stochastic Methods , 1983 .
[262] J. A. Witz,et al. On the axial-torsional structural behaviour of flexible pipes, umbilicals and marine cables , 1992 .
[263] Xavier Gironella Cobos,et al. Nonlinear Regular Wave Generation in Numerical and Physical Flumes , 2010 .
[264] J. J. Feret,et al. Evaluation Of Flexible Pipes' Life Expectancy Under Dynamic Conditions , 1986 .
[265] José Ortiz,et al. Large-displacement nonlinear sloshing in 2-D circular rigid containers — prescribed motion of the container , 1998 .
[266] Murilo Augusto Vaz,et al. A nonlinear formulation for the axisymmetric response of umbilical cables and flexible pipes , 2002 .
[267] Hajime Mauro,et al. The Drift of a Body Floating on Waves , 1960 .
[268] Atef F. Saleeb,et al. Finite element solutions of two-dimensional contact problems based on a consistent mixed formulation , 1987 .
[269] P Estrier. UPDATED METHOD FOR THE DETERMINATION OF THE SERVICE LIFE OF FLEXIBLE RISERS , 1992 .
[270] Spyros A. Mavrakos,et al. HYDRODYNAMIC ANALYSIS OF FLOATING SOLAR PONDS , 1986 .
[271] M. Kashiwagi,et al. Hydrodynamics of a body floating in a two-layer fluid of finite depth. Part 2. Diffraction problem and wave-induced motions , 2006 .
[272] E. F. Bradley,et al. Bulk parameterization of air‐sea fluxes for Tropical Ocean‐Global Atmosphere Coupled‐Ocean Atmosphere Response Experiment , 1996 .
[273] P. Jeanjean. Setup Characteristics of Suction Anchors for Soft Gulf of Mexico Clays:Experience From Field Installation and Retrieval , 2006 .
[274] Chadi Maalouf,et al. An efficient passive technique for reducing sloshing in rectangular tanks partially filled with liquid , 2010 .
[275] Paulo Alexandre Justino,et al. OWC wave energy devices with air flow control , 1999 .
[276] Svein Sævik,et al. Non-Linear Stress Analysis of Complex Umbilical Cross-Sections , 2002 .
[277] O M Valtinsen. A Nonlinear Theory of Sloshing in Rectangular Tanks , 1974 .
[278] I Fylling,et al. EFFECTS OF INTERNAL FRICTION AND TORQUE STIFFNESS ON THE GLOBAL BEHAVIOUR OF FLEXIBLE RISERS AND UMBILICALS , 1991 .
[279] Kuang-An Chang,et al. Numerical Modeling of Wave Interaction with Porous Structures , 2001 .
[280] Manabu Takao,et al. Current status of self rectifying air turbines for wave energy conversion , 2006 .
[281] B. N. Mandal,et al. Water wave radiation by a sphere submerged in water with an ice-cover , 2008 .
[282] William E. Schiesser,et al. Linear and nonlinear waves , 2009, Scholarpedia.
[283] Dezhi Ning,et al. Numerical simulation of fully nonlinear irregular wave tank in three dimension , 2007 .
[284] G. Matheron. Principles of geostatistics , 1963 .
[285] L. Ostrovsky,et al. Modulation instability: The beginning , 2009 .
[286] Kyuichiro Washizu,et al. Nonlinear analysis of liquid motion in a container subjected to forced pitching oscillation , 1980 .
[287] Alan Dobson,et al. Fatigue Testing and Analysis of a Deep Water Steel Tube Umbilical , 2008 .
[288] Carl M. Larsen. Flexible riser analysis — comparison of results from computer programs , 1992 .
[289] Dai Yishan,et al. Time-domain calculation of hydrodynamic forces on ships with large flare. (Part 2: Three-dimensional case) , 1999 .
[290] Chung Bang Yun,et al. Sloshing characteristics in rectangular tanks with a submerged block , 1996 .
[291] C. S. Lichtenwalner,et al. A regional ocean modeling system for the Long‐term Ecosystem Observatory , 2005 .
[292] Jørgen Amdahl,et al. ENERGY ABSORPTION IN SHIP-PLATFORM IMPACTS , 1983 .
[293] Haym Benaroya,et al. Modeling Fluid Structure Interaction , 2000 .
[294] P. Stansby,et al. Surf zone wave overtopping a trapezoidal structure: 1-D modelling and PIV comparison , 2004 .
[295] Miao Guo-ping. The Interaction of Water Waves with a Vertically Floating Cylinder in a Two-Layer Fluid , 2007 .
[296] Steven A. Orszag,et al. Large Eddy Simulation of Complex Engineering and Geophysical Flows , 2010 .
[297] V. Zakharov,et al. Freak waves as nonlinear stage of Stokes wave modulation instability , 2006 .
[298] K. Dysthe,et al. Note on a modification to the nonlinear Schrödinger equation for application to deep water waves , 1979, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[299] Shukui Liu. Numerical simulation of large amplitude ship motions and applications to ship design and safe operation , 2011 .
[300] Manuel del Jesus,et al. Three-dimensional interaction of waves and porous coastal structures: Part I: Numerical model formulation , 2012 .
[301] Jeom Kee Paik,et al. Buckling and ultimate strength interaction in plates and stiffened panels under combined inplane biaxial and shearing forces , 1995 .
[302] G. H. Keulegan,et al. Forces on cylinders and plates in an oscillating fluid , 1958 .
[303] F. Biesel,et al. LES APPAREILS GÉNÉRATEURS DE HOULE EN LABORATOIRE , 1951 .
[304] Nicholas Dodd,et al. Numerical Model of Wave Run-Up, Overtopping, and Regeneration , 1998 .
[305] A. Shidfar,et al. Numerical solution of inverse heat conduction problem with nonstationary measurements , 2005, Appl. Math. Comput..
[306] Masaru Tsujimoto,et al. Investigation on Components of Added Resistance in Short Waves , 2008 .
[307] Lawrence K. Forbes,et al. Sloshing of an ideal fluid in a horizontally forced rectangular tank , 2010 .
[308] 小川 剛孝. A study on nonlinear wave loads of a large container carrier in rough seas(Summaries of Papers Published by Staff of National Maritime Research Institute at Outside Organizations) , 2007 .
[309] A. Petrosyan,et al. Particular solutions of shallow-water equations over a non-flat surface , 2000 .
[310] Zvonimir Lušić,et al. The Main Sailing Routes in the Adriatic , 2006 .
[311] F. Chazel. Influence of bottom topography on long water waves , 2007, math/0701227.
[312] Peter Wriggers,et al. On enhanced strain methods for small and finite deformations of solids , 1996 .
[313] César Vidal,et al. Experimental study of the evolution of a solitary wave at an abrupt junction , 1989 .
[314] Dick K. P. Yue,et al. A high-order spectral method for nonlinear wave–body interactions , 1992, Journal of Fluid Mechanics.
[315] D. B. Kothe,et al. A SECOND-ORDER ACCURATE, LINEARITY-PRESERVING VOLUME TRACKING ALGORITHM FOR FREE SURFACE FLOWS ON 3-D UNSTRUCTURED MESHES , 1999 .
[316] C. Sarrico. New solutions for the one-dimensional nonconservative inviscid Burgers equation☆ , 2006 .
[317] O. Nwogu. Alternative form of Boussinesq equations for nearshore wave propagation , 1993 .
[318] P. M. Naghdi,et al. A derivation of equations for wave propagation in water of variable depth , 1976, Journal of Fluid Mechanics.
[319] Nils Salvesen,et al. SHIP MOTIONS AND SEA LOADS , 1970 .
[320] Keh-Han Wang,et al. Solitary wave interaction with a concentric porous cylinder system , 2006 .
[321] M. Randolph,et al. Setup Following Installation of Dynamic Anchors in Normally Consolidated Clay , 2009 .
[322] Guttorm Grytoyr,et al. Methodology for Time Domain Fatigue Life Assessment of Risers and Umbilicals , 2010 .
[323] Carlos A. Rossit,et al. Theory of Wire Rope , 2001 .
[324] Ting Chieh Lin,et al. Tsunami-like solitary waves impinging and overtopping an impermeable seawall: Experiment and RANS modeling , 2010 .
[325] Javier L. Lara,et al. Wave interaction with low-mound breakwaters using a RANS model , 2008 .
[326] A. Semtner. A MODEL FOR THE THERMODYNAMIC GROWTH OF SEA ICE IN NUMERICAL INVESTIGATIONS OF CLIMATE , 1975 .
[327] I Kraincanic,et al. Slip initiation and progression in helical armouring layers of unbonded flexible pipes and its effect on pipe bending behaviour , 2001 .
[328] Annette M. Harte,et al. Characterisation of the Wave Environment in the Fatigue Analysis of Flexible Risers , 2005 .
[329] J. A. Witz. A case study in the cross-section analysis of flexible risers , 1996 .
[330] Robert E. Melchers,et al. Structural Reliability: Analysis and Prediction , 1987 .
[331] M F Younes,et al. An experimental investigation of hydrodynamic damping due to vertical baffle arrangements in a rectangular tank , 2007 .
[332] M. Longuet-Higgins. Modulation of the amplitude of steep wind waves , 1980, Journal of Fluid Mechanics.
[333] Richard Evelyn Donohue Bishop,et al. Some comments on present-day ship dynamics , 1991, Philosophical Transactions of the Royal Society of London. Series A: Physical and Engineering Sciences.
[334] Eugenio Oñate,et al. A stabilized finite element method for incompressible viscous flows using a finite increment calculus formulation , 2000 .
[335] Matthew Folley,et al. Air turbine design for OWCs , 2008 .
[336] Hakan Akyildiz,et al. Experimental investigation of pressure distribution on a rectangular tank due to the liquid sloshing , 2005 .
[337] Dick K. P. Yue,et al. On generalized Bragg scattering of surface waves by bottom ripples , 1998, Journal of Fluid Mechanics.
[338] John C. Slattery,et al. Advanced transport phenomena , 1999 .
[339] Gordon A. Fenton,et al. Probabilistic methods in geotechnical engineering , 2007 .
[340] Javier L. Lara,et al. RANS modelling applied to random wave interaction with submerged permeable structures , 2006 .
[341] J. Monaghan,et al. Solitary Waves on a Cretan Beach , 1999 .
[342] H. Akyıldız,et al. Sloshing in a three-dimensional rectangular tank: Numerical simulation and experimental validation , 2006 .
[343] Ola M. Johannessen,et al. Two decades of microwave satellite observations of arctic sea ice variability and trends , 1999, IEEE 1999 International Geoscience and Remote Sensing Symposium. IGARSS'99 (Cat. No.99CH36293).
[344] Turgut Sarpkaya,et al. Force on a circular cylinder in viscous oscillatory flow at low Keulegan—Carpenter numbers , 1986, Journal of Fluid Mechanics.
[345] Henrik O. Madsen,et al. Structural Reliability Methods , 1996 .
[346] G. X. Wu,et al. Second-order resonance of sloshing in a tank , 2007 .
[347] Jon Tore Lieng,et al. Deep Penetrating Anchor: Further Development, Optimization And Capacity Verification , 2000 .
[348] Mi-An Xue,et al. Numerical study of ring baffle effects on reducing violent liquid sloshing , 2011 .
[349] José Ortiz,et al. Closed-Form Modeling of Fluid-Structure Interaction with Nonlinear Sloshing: Potential Flow , 1997 .
[350] Sup Hong,et al. Design evaluation of a Deepsea manganese nodule miner based on axiomatic design , 2005 .
[351] C. J. Medeiros. Low Cost Anchor System for Flexible Risers in Deep Waters , 2002 .
[352] Pengzhi Lin,et al. A numerical study of three-dimensional liquid sloshing in tanks , 2008, J. Comput. Phys..
[353] Xiaoming Wang,et al. A Numerical Investigation of Boumerdes-Zemmouri (Algeria) Earthquake and Tsunami , 2005 .
[354] Russell Smith,et al. Fatigue Analysis of Unbonded Flexible Risers With Irregular Seas and Hysteresis , 2007 .
[355] Jin-Ha Kim,et al. Experimental Study On Hydraulic Performance of Hybrid Pick-up Device of Manganese Nodule Collector , 1999 .
[356] Alberto Omar Vazquez-Hernandez,et al. A Reliability-Based Comparative Study for Mooring Lines Design Criteria , 2006 .
[357] D. Diers,et al. On waves... , 1992, Image--the journal of nursing scholarship.
[358] Eleuterio F. Toro,et al. Exact solution of the Riemann problem for the shallow water equations with discontinuous bottom geometry , 2008, J. Comput. Phys..
[359] Martina Tudor,et al. Use of high-resolution dynamical adaptation in operational suite and research impact studies , 2004 .
[360] Jan Pedersen. Wave Forces and Overtopping on Crown Walls of Rubble Mound Breakwaters: an Experimental Study , 1996 .
[361] Javier L. Lara,et al. Numerical analysis of wave loads for coastal structure stability , 2009 .
[362] G. Costello,et al. Axial, Bending and Torsional Loading of a Strand With Friction , 1988 .
[363] Inigo J. Losada,et al. Wave Overtopping of Póvoa de Varzim Breakwater: Physical and Numerical Simulations , 2008 .
[364] J.M.M. Out,et al. Slippage of helical reinforcing on a bent cylinder , 1997 .