Differential interferometric synthetic aperture radar (DInSAR) has been widely used in surface deformation estimation. In order to speed up the recognition of location of deformation, the wrapped phase directly reflected the phase change caused by surface deformation was used as the source in this study. Deep learning based on Libra-RCNN was applied as the tool to detect the fringes presented in the interferograms. The results show that the fringe detection and classification model trained based on the Libra-RCNN architecture can achieve 83.9% mean Average Precision(mAP) in the testing data. In addition, in the unlabeled dataset, the accuracy of centimeter level for the fringes classification generated by the surface deformation can be achieved. The testing performed in middle of Taiwan and the transferability test conducted in northern Taiwan both demonstrated the approach proposed in this study is reliable.