Segmentation of polarimetric SAR sea ice image with noise suppression

XIA Mengqin; YANG Xuezhi; DONG Zhangyu; ZHENG Xin; LI Guoqiang

doi:10.11834/jrs.20155028

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Segmentation of polarimetric SAR sea ice image with noise suppression
Vol. 19, Issue 5, Pages: 856-863(2015)
Published： 2015 ，
DOI： 10.11834/jrs.20155028

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[1]夏梦琴,杨学志,董张玉,郑鑫,李国强.噪声抑制的多极化SAR海冰图像分割[J].遥感学报,2015,19(05):856-863.

XIA Mengqin, YANG Xuezhi, DONG Zhangyu, et al. Segmentation of polarimetric SAR sea ice image with noise suppression. [J]. Journal of Remote Sensing 19(5):856-863(2015)
[1]夏梦琴,杨学志,董张玉,郑鑫,李国强.噪声抑制的多极化SAR海冰图像分割[J].遥感学报,2015,19(05):856-863. DOI： 10.11834/jrs.20155028.

XIA Mengqin, YANG Xuezhi, DONG Zhangyu, et al. Segmentation of polarimetric SAR sea ice image with noise suppression. [J]. Journal of Remote Sensing 19(5):856-863(2015) DOI： 10.11834/jrs.20155028.

摘要

合成孔径雷达（SAR）海冰图像分割对全球气候研究和保证船舶航行安全具有重要意义。现有的基于区域的马尔可夫随机场（MRF）多极化SAR分割方法

由于受相干斑噪声影响

其区域划分不尽合理

不能有效完成分割。因此

提出一种噪声抑制的多极化SAR海冰图像分割算法

首先在极化总功率图上引入降低噪声的滤波算法

合理划分初始区域

其次考虑区域之间的差异度

从而实现多极化SAR海冰图像的准确分割。以RADARSAT-2和SIR-C获得的全极化海冰图像为实验数据进行验证

结果表明:和其他较先进算法相比

本文算法优势明显

既能高效保持图像连通性

又能增强图像的细节信息

具有更高的分割精度。

Abstract

SAR sea ice image segmentation is essential for climate variation research and navigation safety. However

current region-level MRF-based algorithms have been widely used in SAR sea ice image segmentation. Speckle noise is a phenomenon of the SAR imaging system produced by inherent defects of the system. This phenomenon seriously affects the accuracy of polarimetric SAR image interpretation and subsequent segmentation

classification

target detection

and treatment. Thus

polarimetric SAR image speckle should be inhibited. To effectively suppress the interference of speckle noise and preserve edge information

We proposed a new segmentation algorithm in this paper.A novel segmentation algorithm called polarimetric SAR sea ice image with noise suppression（ NS-RMRF） is introduced.Speckle Reduction Anisotropic Diffusion（ SRAD） filtering is used in polarization total power span before splitting the original image. The simulated overflow watershed segmentation algorithm is applied to generate initialized areas. After the initialized segmentation

a region adjacency graph is constructed. With the difference between the area and the adjacent area

the difference degree is introduced to the region MRF model based on the Wishart distribution. Simulated annealing is the optimization algorithm used to minimize the objective function.Two polarimetric SAR of sea ice image data obtained by RADARSAT-2 and SIR-C were used to verify the effectiveness of the proposed method. The classical polarimetric segmentation ML method of Lee

the region-WRMF segmentation method of Wu

and the Polar IRGS segmentation method of Yu were compared with the NS-RMRF method. The result indicates that the proposed algorithm exhibit advantages over other image segmentation methods.In a subjective perspective

the results of the NS-RMRF segmentation algorithm can indicate the true distribution of surface features. In an objective perspective

the proposed algorithm achieves better segmentation results than the three other methods based on the overall accuracy and Kappa coefficient.The segmentation algorithm of NS-RMRF is proposed in this study and a new calculation method that measures the regional difference is also presented. Noise-reduction filtering algorithm is used to establish a valid initial segmentation and maintain edge information by considering the difference between regions in a spatial context model. The proposed algorithm can effectively capture and maintain details and smoothen homogeneous areas more effectively than ML

region-based WMRF

and Polar IRGS algorithms.However

the proposed method are limited by deficiencies; thus

the proposed algorithm should be improved.