Add to ORKGA linearized three-dimensional potential flow formulation in time domain is applied to calculate wave-making resistance of ships in calm water. Steady-state perturbation potentials for resistance are obtained as the steady-state limit of the surge radiation impulse response function using the transient free surface source distribution over the body surface. Five different vessels are used to validate the present numerical approximation. The results, including steady-state wave-making resistance, sinkage force, trim moment, and wave profile along the waterline, are compared with other published numerical and experimental results
A numerical program for time-domain calculations of the manoeuvring behaviour in regular waves is p...
It is well known that to describe the motion of a ship sailing in waves strip-theory gives very good...
A potential flow model for linearized ship seakeeping in time domain is presented. The numerical alg...
A linearized three-dimensional potential flow formulation in time domain is applied to calculate wav...
A linearized three-dimensional potential flow formulation in time domain is applied to calculate wav...
A linearized three-dimensional potential flow formulation in time domain is applied to calculate wav...
A time domain mathematical model is presented for the prediction of heave and pitch motions in regul...
The problem of determining the force on a ship or body due to an arbitrary incident wave system is c...
Abstract: We consider the calculation of wave resistance for a ship moving at constant speed near th...
Extreme wave loads have to be defined in the ultimate strength assessment of ship structures. Nonlin...
Extreme wave loads have to be defined in the ultimate strength assessment of ship structures. Nonlin...
A three-dimensional time-domain panel method is developed, which solves the Neumann-Kelvin linearise...
The problem of determining the force on a ship or body due to an arbitrary incident wave system is c...
We study the waves and wave-making forces acting on ships travelling on currents which vary as a fun...
A non linear time domain formulation for ship motions and wave loads is presented and applied to the...
A numerical program for time-domain calculations of the manoeuvring behaviour in regular waves is p...
It is well known that to describe the motion of a ship sailing in waves strip-theory gives very good...
A potential flow model for linearized ship seakeeping in time domain is presented. The numerical alg...
A linearized three-dimensional potential flow formulation in time domain is applied to calculate wav...
A linearized three-dimensional potential flow formulation in time domain is applied to calculate wav...
A linearized three-dimensional potential flow formulation in time domain is applied to calculate wav...
A time domain mathematical model is presented for the prediction of heave and pitch motions in regul...
The problem of determining the force on a ship or body due to an arbitrary incident wave system is c...
Abstract: We consider the calculation of wave resistance for a ship moving at constant speed near th...
Extreme wave loads have to be defined in the ultimate strength assessment of ship structures. Nonlin...
Extreme wave loads have to be defined in the ultimate strength assessment of ship structures. Nonlin...
A three-dimensional time-domain panel method is developed, which solves the Neumann-Kelvin linearise...
The problem of determining the force on a ship or body due to an arbitrary incident wave system is c...
We study the waves and wave-making forces acting on ships travelling on currents which vary as a fun...
A non linear time domain formulation for ship motions and wave loads is presented and applied to the...
A numerical program for time-domain calculations of the manoeuvring behaviour in regular waves is p...
It is well known that to describe the motion of a ship sailing in waves strip-theory gives very good...
A potential flow model for linearized ship seakeeping in time domain is presented. The numerical alg...