Title :
Real-time Simulation of Large Area Nearshore Wave for Marine Simulator
Author :
Li, Yongjin ; Jin, Yicheng ; Yin, Yong ; Shen, Helong
Author_Institution :
Lab. of Marine Simulation & Control, Dalian Maritime Univ., Dalian, China
Abstract :
A new method for nearshore wave simulating is introduced. Firstly, parabolic mild-slope equations are set up according to the simulation area and input waves. After solving the equations, the integral wave parameters such as the root mean square wave height, the peak wave period and the mean wave direction can be calculated. Instantaneous surface elevations can also be obtained from the model. Then, the integral wave parameters and an instantaneous surface elevation are composed into a float texture. Finally, a viewpoint-dependent sea surface is rendered using this texture as wave parameters. Experimental results show that this method can be applied to simulate large area nearshore wave in real-time with realistic effect. It is suitable for the application of real-time simulation, particularly for marine simulator.
Keywords :
digital simulation; human computer interaction; marine systems; naval engineering computing; ocean waves; rendering (computer graphics); integral wave parameters; large area nearshore wave simulation; marine simulator; mean wave direction; parabolic mild-slope equations; peak wave period; real-time wave rendering; root mean square wave height; viewpoint-dependent sea surface; Computational modeling; Computer simulation; Integral equations; Layout; Marine vehicles; Ocean waves; Sea surface; Solid modeling; Surface texture; Surface waves; marine simulator; nearshore wave simulation; physical consideration wave modeling; real-time wave rendering;
Conference_Titel :
Computer Graphics, Imaging and Visualization, 2009. CGIV '09. Sixth International Conference on
Conference_Location :
Tianjin
Print_ISBN :
978-0-7695-3789-4
DOI :
10.1109/CGIV.2009.57
