Abstract

Synthetic aperture radar (SAR) images have been one of the important tools to support earth observations and topographic measurements. It means that SAR images are essentially rich in structures. However, the single spatial relationship is difficult to deal with the heterogeneous structures of the SAR images. In this paper, we propose an adaptive hierarchical multinomial latent model with hybrid kernel function for SAR image semantic segmentation. In the proposed approach, we design a hybrid kernel function combing Gaussian radial basis function (GRBF) and ridgelet kernel function to adaptively describe the spatial relationships between the central pixel and the surrounding pixels. Then, based on the hybrid kernel function, adaptive methods are proposed for semantic segmentation. Specifically, an SAR image is divided into different characteristics subspaces, homogeneous, structural, and aggregated subspaces, by SAR hierarchical semantic model. For the homogeneous subspace, GRBF is used to describe the isotropic spatial relationships. Then, multilayer multinomial latent model with GRBF is used for segmentation to improve the labeling consistency and reduce the wrong segmentation. For the structural subspace, the ridgelet kernel function is used to describe the anisotropic spatial relationships. Then, we adopt the single-layer multinomial latent model with ridgelet kernel function for segmentation to preserve the details (such as edge, lines, and small objects). For aggregated subspace, bag-of-words model is used to extract the features of the aggregated portions, and then affinity propagation cluster is used for segmentation. Finally, the segmentation results of different subspaces are integrated together to obtain the final segmentation result. Comprehensive experiments on both synthetic and real SAR images demonstrate that the segmentation results by our proposed approach achieve the semantic consistency, labeling consistency, and detail preservation simultaneously.

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