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Typhoon Sanba (2012), the strongest tropical cyclone (TC) of the year worldwide, moved northward almost along 130° longitude during its lifetime and passed through different background flows from low to high latitudes. The steering flows with different timescales for Sanba are retrieved by using the NCEP reanalysis data with the total wind field separated into: a mean state, an interannual component, an intraseasonal component, and a synoptic component. Our analysis indicates that the intraseasonal timescale wave train (WT) with east-west oriented circulations made the largest contribution to the movement of Sanba. The effects of the environmental steering with different timescales on Sanba's movement are investigated with numerical simulations using the Weather Research and Forecasting (WRF) model. In the control simulation, total fields from the NCEP reanalysis are used as initial and boundary conditions, and the northward motion of Sanba is well captured. In sensitivity experiments, each of the intraseasonal and interan-nual components is removed one at a time. The steering vectors associated with these timescales can explain their in-fluences on the movement of Sanba in the experiments. Vorticity budget analyses indicate that the horizontal vorti-city advection made the largest contribution to the movement of the storm.