References

  1. Y.Z. Jiang, Y.T. Ye, H. Wang, Discussion on intelligent regulation technology architecture for river basin based on internet of things, Water Resour. Informat., 4 (2010) 1–5.
  2. X.F. Duan, H.X. Ren, Overview of physically-based ocean waves simulation, Comp. Sci., 41 (2014) 1–6.
  3. C.T. Pozzer, S.R.M. Pellegrino, Procedural solid-space techniques for modelling and animating waves, Comp. Graph., 26 (2002) 877–885.
  4. P.Y. Ts’o, B.A. Barsky, Modeling and rendering waves: wavetracing using beta-splines and reflective and refractive texture mapping, ACM Trans. Graphics, 6 (1987) 191–214.
  5. L.B. Yan, Real-time generation of ocean wave surface, J. Comput.-Aided Des. Comput. Graphics, 12 (2000) 715–719.
  6. L. Pan, J. Zhou, J. Xiao, Three-dimensional digital lake simulation based on Openscenegraph and C++/CLI, ICIC Express Lett., 7 (2013) 3402–3408.
  7. P. Nugjgar, N. Chiba, Markov-Type vector field for endless surface animation of water stream, Visual Comput., 29 (2013) 959–968.
  8. J.D. Shi, Y.M. Jianf, Simulation of 3D shallow waves based on OpenGL, Microelectron. Comput., 23 (2006) 137–140.
  9. K. Perlin, in B.A. Barsky, Ed., An Image Synthesizer in Computer Graphics, SIGGRAPH ‘85 Proc., 1985, pp. 287–296.
  10. K. Perlin, E.M. Hoffert, in J. Lane, Ed. Hypertexture in Computer Graphics, SIGGRAPH ‘89 Proc., 1989, pp. 253–262.
  11. K. Perlin, Improving noise, ACM Trans. Graphics, 21 (2002) 681–682.
  12. Y. Xiang, S. Xu, Real-time rendering on dynamic water surface based on Perlin noise, Comp. Eng. Des., 34 (2013) 3966–3970.
  13. K.S. Zhang, E.J. Liang, Fresnel’s law and phase relationship between reflected and incident light, J. Wuhan Univ. Technol., 27 (2005) 116–118.
  14. Y.F. Li, T.T. Cheng, W. He, Simulation method for lake surface wave, J. Syst. Simul., 21 (2009) 7507–7510.
  15. T.T. Cheng, L.L. Chen, W. He, Modeling algorithm for realistic travelling lake surface simulation in virtual environment, Comp. Eng. Appl., 44 (2008) 184–187.
  16. K.E. Niemeyer, C.J. Sung, Recent progress and challenges in exploiting graphics processors in computational fluid dynamics, J. Supercomput., 1 (2013) 1–37.
  17. X.J. Hu, H.Y. Yang, Y. Wan, Research and implementation of screen space based ocean simulation, Comp. Eng. Des., 36 (2015) 452–457.
  18. Z. Cao, T.Y. Su, G.Y. Wang, Multidimensional visualization technology research about the large-scale oceanographic environment, Period. Ocean Univ. China, 47 (2017) 132–138.
  19. L.L. Zhao, S.B. Zhang, M. Zhang, T. Yao, High performance FFT computation based on CUDA, Appl. Res. Comp., 28 (2011) 1556–1559.
  20. H.J. Wang, S.C. Zhou, C.Y. Ma, G. Chen, Paralleled dynamic multi-resolution physical simulation model of water surface, Comp. Eng., 38 (2012) 286–290.
  21. F. Du, Y. Zhanf, Visual simulation of atmospheric scattering on earth based on GPU, J. Syst. Simul., 21 (2009) 148.
  22. S.L. Wang, F.J. Kang, J.H. Xu, Research on general ocean simulation technology, J. Syst. Simul., 29 (2017) 381–386.