Abstract
Decorrelation is one of the main limitations for InSAR. Masking decorrelated pixels is crucial for retrieving information from SAR interferograms. However, for traditional masking methods, manually drawing masks is time-consuming and may be unfeasible when decorrelation areas are with complicated and blurred boundaries. Setting a single coherence threshold is also difficult, if not impossible, to mask out all decorrelated pixels without losing valid phases. Here, we propose a deep-learning segmentation network (Mask Net) based on Selective Kernel Res-Attention UNet, for generating decorrelation masks with applications to TanDEM-X interferograms. We conduct several experiments to determine the training strategy and parameters, including sample size, batch size, loss function and down-sampling scheme, to optimize network performance. Afterwards, we compare the performance of Mask Net with other classical segmentation networks. Our evaluation metrics show that Mask Net outperforms the best performance of other segmentation networks by IoU of 6.32% and F1 Score of 3.97%, respectively. It also possesses the fastest inferring speed, 0.4505s on sample size of 1024-by-1024 pixels, which is at least ~50% faster than other segmentation networks. We applied Mask Net to three TanDEM-X interferograms of Klauea crater in Hawaii, metropolitan region of Wuhan, and Muztagata Glacier in China. Our results show that comparing with coherence threshold method, Mask Net can clearly mask out all decorrelation regions, rarely causing loss of valid phases. It also exhibits better segmentation performance than other deep-learning segmentation networks, especially for those complex decorrelation boundaries, with less computational time.
Highlights
S YNTHETIC aperture radar interferometry (InSAR) is a remote-sensing tool that allows for precisely mapping the topography and the surface deformation with high resolution [1], [2]
For a binary-segmentation assignment, the prediction results are in four sets, i.e., true positive (TP), false negative (FN), false positive (FP), and true negative (TN), which, respectively, means inferring a positive sample as positive correctly, inferring a positive sample as negative wrongly, inferring a negative sample as positive wrongly, and inferring a negative sample as negative correctly
The Mask Net is applied to TanDEM-X interferograms in the scenario of digital surface model (DSM) -generation applications
Summary
S YNTHETIC aperture radar interferometry (InSAR) is a remote-sensing tool that allows for precisely mapping the topography and the surface deformation with high resolution [1], [2]. For an interferogram acquired with bistatic SAR mission, i.e., the two SAR images are acquired simultaneously, completely decorrelated areas are mostly caused by water bodies and shortening/shadowing effects Such phase patterns can be learnt by an artificial neural network. Compared with other traditional convolutions with fixed forms, SK block provides a more flexible and robust convolution scheme, which obtain a fused feature of multiscale-receptive field by adopting attention mechanism to determine weight-choosing arrays of different feature maps It has been tested in backbone of ResNeXt-50, achieving a better performance and lower error level, compared with other state of art networks [36]. We conduct various experiments to determine the optimum training strategies and network structure for the Mask Net. After confirming the network structure, we apply it to generate masks for three TanDEM-X interferograms covering different surface scattering characteristics, all with complicated boundaries of decorrelated areas. The fifth section discusses some common issues related to Mask Net and sixth section gives the conclusions
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