We apply ambient noise tomography to Madagascar. The Madagascar Island can be generally divided into two major geological units. The eastern two-thirds of the island is composed of metamorphic basement separated from the east Gondwana, and the western part of the island is mostly covered by sedimentary basins, Morondava basin and Majunga basin. Little was known about the subsurface crustal structure of Madagascar until the recent deployment of seismic networks in and around this area. 　　In this study, we constrain the crustal seismic structure of Madagascar by using the dispersion data of Rayleigh wave extracted from ambient seismic noise. We derive the noise cross-correlation functions (CCF) from the vertical continuous data (2012-2013) recorded by 3 land seismic networks and one OBS network. To ensure the data quality, only the CCFs with inter-station distance less than 700 km are considered for the dispersion measurement. Using the resulting broad-band (5-35 seconds) dispersion data, we implement a wavelet-based multi-scale inversion technique to build 3-D Vs and Vs azimuthal anisotropy model of the crust of Madagascar. 　　In the resulting isotropic Vs model, the lower velocity zones are mainly distributed in the shallow depth ( < 10km ) of Morondava basin and Majunga basin; on the other hand, the metamorphic basement in east Madagascar is mostly covered by higher velocity. The resulting Vs anisotropy model shows that the shallow crust of Madagascar is dominated by structure-related anisotropy, with the fast polarization direction generally parallel to the foliation direction of the metamorphic basement formed during the Pan-African orogeny.