The Taipei basin is a triangular alluvium basin. Because of the complex Tertiary basement and the weak Quaternary alluvium, the site effects of the basin amplifying and extending the seismic waves are the major reason of seismic disasters in Taipei. The detailed and correct velocity model is necessary for the ground motion estimation. The velocities and structures of the strata in Taipei basin has been studied repeatedly by various surveys and analyses. However, the most of the existing velocity structures for the near-surface part which varies significantly in Taipei basin are simple and insufficient. The more detailed near-surface velocity structure reflecting the real and complex seismic site-effects of the Taipei basin is necessary. The detail site response all over the Taipei basin has been studied by using the H/V ratios of dense microtremor surveys. According to the previous results, this study will evaluate the near-surface S-wave velocity by the simulation of the microtremor H/V ratios based on the GA-Haskell method we developed in the Taipei basin. The numerous microtremor data are helpful to figure the S-wave velocity and thickness of the Sungshan Formation or the other deeper formations which control the seismic site-effect in the basin. Finally, the complete and detail near-surface S- wave velocity model for the Taipei basin will be establish. It will be helpful to the strong motion prediction and simulation in the future.