Deep Shearlet Network for Change Detection in SAR Images

Abstract

Convolutional neural networks (CNN) can extract shift-invariant features, and have been widely applied in change detection task. However, common CNN lacks noise robustness and needs supervised data, to alleviate these problems, in this paper, we propose a novel deep shearlet network (ShearNet) for change detection in SAR images. In the network, a shearlet denoising layer (SDL) is designed to enhance the representation ability of common CNN. In SDL, feature maps are decomposed into subband coefficients by shearlet transform (ST). Due to optimal sparse representation property and highly direction sensitivity of ST, the network can capture important geometric information. Then, hard-threshold shrinkage is applied to high frequency subbands to drop small coefficients that are most likely to be noise, so that reduce the effect of noise. Finally, ShearNet is trained by introducing a noise-robust loss with noisy labels. The noisy labels are obtained by deep clustering that shows more robustness than existing preclassification methods. This fine-tuning process novelly follows the paradigm of learning from noisy labels to aside the difficulty of precisely labeling samples. Our experimental results on multiple real SAR datasets show that ShearNet can boost accuracy, and have better applicability for change detection in SAR images. The source code is available at https://github.com/yizhilanmaodhh/ShearNet.