Abstract
In synthetic aperture radar (SAR) image change detection, it is quite challenging to exploit the changing information from the noisy difference image subject to the speckle. In this paper, we propose a multi-scale spatial pooling (MSSP) network to exploit the changed information from the noisy difference image. Being different from the traditional convolutional network with only mono-scale pooling kernels, in the proposed method, multi-scale pooling kernels are equipped in a convolutional network to exploit the spatial context information on changed regions from the difference image. Furthermore, to verify the generalization of the proposed method, we apply our proposed method to the cross-dataset bitemporal SAR image change detection, where the MSSP network (MSSP-Net) is trained on a dataset and then applied to an unknown testing dataset. We compare the proposed method with other state-of-arts and the comparisons are performed on four challenging datasets of bitemporal SAR images. Experimental results demonstrate that our proposed method obtain comparable results with S-PCA-Net on YR-A and YR-B dataset and outperforms other state-of-art methods, especially on the Sendai-A and Sendai-B datasets with more complex scenes. More important, MSSP-Net is more efficient than S-PCA-Net and convolutional neural networks (CNN) with less executing time in both training and testing phases.
Highlights
Synthetic aperture radar (SAR) is a microwave sensor for earth observation working without the limitations of illumination condition
The comparisons are performed on an individual dataset which means for the supervised methods, the training samples were drawn to train the models and the models were verified on the rest samples in the same datasets
Experiment Results of Cross-Dataset Change Detection. It has been shown from the experiment results of the individual dataset change detection that multi-scale spatial pooling (MSSP)-Net performs competitively with S-PCA-Net and convolutional neural networks (CNN)
Summary
Synthetic aperture radar (SAR) is a microwave sensor for earth observation working without the limitations of illumination condition. This advantage allows people to perform multiple earth observations at all time with all weather and the acquired multitemporal SAR images give us opportunities to compare the difference of the multi-temporal SAR images on the same scene, which is known as multi-temporal SAR image change detection [1]. Most SAR image change detection methods are developed based on the framework proposed in [2,3] by L. F. Prieto, in which the changed regions are detected from a difference image (DI). Li et al [5] proposed a joint sparse learning model to obtain robust features from difference images
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