Sun Z.,Jilin University |
Sun Z.,Laboratory for Integrated Geophysical Interpretation Theory of Ministry for Land and Resources of China |
Sun J.,Jilin University |
Sun J.,Laboratory for Integrated Geophysical Interpretation Theory of Ministry for Land and Resources of China |
And 2 more authors.
Jisuan Wuli/Chinese Journal of Computational Physics
Conventional fast marching method(FMM) is improved for traveltime computation. A non-equidistant difference scheme is used to carry local traveltime computation near surface and interface. New grid node type is used to realize narrow band technique under irregular boundary conditions. Analysis on accuracy, efficiency and numerical tests shows that the new method has high-accuracy and accuracy of the reflection wave is higher than that of the first-arrival wave. The new method does not need too more additional computing capacity in dealing with irregular boundaries. The new method can treat strong topographical change, near-surface and subsurface complex media effectively and flexibly. The results consist with laws of wave propagation under complex topographical conditions. Source