This paper presents a new filtering approach for Synthetic Aperture Radar (SAR) interferometric phase noise reduction in the shearlet domain, depending on the coherent statistical characteristics.Shearlets provide a multidirectional and multiscale decomposition that have advantages over wavelet filtering methods when dealing Fig with noisy phase fringes.Phase noise in SAR interferograms is directly related to the interferometric coherence and the look number of the interferogram.
Therefore, an optimal interferogram filter should incorporate information from both of them.The proposed method combines the phase noise standard deviation with the Freezer Drawer Cover shearlet transform.Experimental results show that the proposed method can reduce the interferogram noise while maintaining the spatial resolution, especially in areas with low coherence.