Superpixel-Based Hybrid Discriminative Random Field for Fast PolSAR Image Classification

Superpixel-Based Hybrid Discriminative Random Field for Fast PolSAR Image Classification

Performance of the powerful discriminative random field (DRF) model for image processing and analysis is easily affected by the inherent speckle noise and the time-consuming iteration. Therefore, in this paper, a superpixel-based hybrid DRF (<italic>sp</italic>-HDRF) model is proposed fo...

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Bibliographic Details
Main Authors: Wanying Song, Ming Li, Peng Zhang, Yan Wu, Xiaofeng Tan
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Polarimetric synthetic aperture radar (PolSAR)
image classification
discriminative random fields (DRF)
superpixel
Online Access:https://ieeexplore.ieee.org/document/8641272/
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Summary:Performance of the powerful discriminative random field (DRF) model for image processing and analysis is easily affected by the inherent speckle noise and the time-consuming iteration. Therefore, in this paper, a superpixel-based hybrid DRF (<italic>sp</italic>-HDRF) model is proposed for fast polarimetric synthetic aperture radar (PolSAR) image classification. The <italic>sp</italic>-HDRF model realizes the classification by two steps. First, the simple linear iterative clustering algorithm, which is modified by introducing the ratio of exponentially weighted averages operator, is utilized to obtain a superpixel graph with more accurate edge locations. Second, the conditional posterior distribution and the inference formula of the <italic>sp</italic>-HDRF model are derived on the superpixel graph, which is a generalization of a DRF model on the pixel. Then, the <italic>sp</italic>-HDRF model is applied to implement classification. Finally, the <italic>sp</italic>-HDRF model has the fusion of the polarimetric scattering features, the statistics, and the spatial relationships of the image. The experimental results on the real PolSAR images demonstrate the effectiveness of the <italic>sp</italic>-HDRF model and illustrate that it can provide stronger noise immunity, obtain smoother homogeneous areas in classification, and enhance the computational efficiency simultaneously.
ISSN:2169-3536

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