TY - JOUR
AU - Bandung Arry Sanjoyo
AU - Mochamad Hariadi
AU - Mauridhi Hery Purnomo
PY - 2020/06/02
Y2 - 2021/01/20
TI - Stable Algorithm Based On Lax-Friedrichs Scheme for Visual Simulation of Shallow Water
JF - EMITTER International Journal of Engineering Technology
JA - emitter
VL - 8
IS - 1
SE - Articles
DO - 10.24003/emitter.v8i1.479
UR - https://emitter.pens.ac.id/index.php/emitter/article/view/479
AB - Many game applications require fluid flow visualization of shallow water, especially dam-break flow. A Shallow Water Equation (SWE) is a mathematical model of shallow water flow which can be used to compute the flow depth and velocity. We propose a stable algorithm for visualization of dam-break flow on flat and flat with bumps topography. We choose Lax-Friedrichs scheme as the numerical method for solving the SWE. Then, we investigate the consistency, stability, and convergence of the scheme. Finally, we transform the strategy into a visualization algorithm of SWE and analyze the complexity. The results of this paper are: 1) the Lax-Friedrichs scheme that is consistent and conditionally stable; furthermore, if the stability condition is satisfied, the scheme is convergent; 2) an algorithm to visualize flow depth and velocity which has complexity O(N) in each time iteration. We have applied the algorithm to flat and flat with bumps topography. According to visualization results, the numerical solution is very close to analytical solution in the case of flat topography. In the case of flat with bumps topography, the algorithm can visualize the dam-break flow and after a long time the numerical solution is very close to the analytical steady-state solution. Hence the proposed visualization algorithm is suitable for game applications containing flat with bumps environments.
ER -