Add to ORKGA new type of computational wave transformation model is described in this report. The model incorporates the processes of wave refraction and diffraction, and uses a time-independent finite-difference marching technique. The model is computationally more efficient than most alternative techniques which combine refraction and diffraction in a general manner. Test are carried out on a circular shoal depth profile, a situation for which strong diffraction effects occur
The present paper describes a method used on a digital computer for calculating the effects of wave ...
A nonlinear dispersive wave model recently introduced by the authors is used for sample simulations ...
A finite difference model has been developed for the simulation of storm waves propagating in coasta...
This report describes three computational models for determining wave refraction by a combination of...
A numerical model based on the dual reciprocity boundary element method (DRBEM) is presented here fo...
The WWM (wind wave model) is extended to describe wave refraction- diffraction for wind waves propag...
Waves that approach the coast and encounter obstacles such as small islands, rocks or breakwaters ma...
This report describes two mathematical models which may be used for the prediction of wave effects b...
In many coastal situations, refraction and diffraction are of equal importance in determining inshor...
A finite difference numerical model, which can correctly consider dis-persion effect of waves over a...
A numerical model is presented for the prediction of combined refraction-diffraction of waves propag...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
The extended mild slope equation was solved using the Gaussian elimination method with partial pivot...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
A nonlinear dispersive wave model recently introduced by the authors is used for sample simulations ...
A finite difference model has been developed for the simulation of storm waves propagating in coasta...
This report describes three computational models for determining wave refraction by a combination of...
A numerical model based on the dual reciprocity boundary element method (DRBEM) is presented here fo...
The WWM (wind wave model) is extended to describe wave refraction- diffraction for wind waves propag...
Waves that approach the coast and encounter obstacles such as small islands, rocks or breakwaters ma...
This report describes two mathematical models which may be used for the prediction of wave effects b...
In many coastal situations, refraction and diffraction are of equal importance in determining inshor...
A finite difference numerical model, which can correctly consider dis-persion effect of waves over a...
A numerical model is presented for the prediction of combined refraction-diffraction of waves propag...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
The extended mild slope equation was solved using the Gaussian elimination method with partial pivot...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
The present paper describes a method used on a digital computer for calculating the effects of wave ...
A nonlinear dispersive wave model recently introduced by the authors is used for sample simulations ...
A finite difference model has been developed for the simulation of storm waves propagating in coasta...