Abstract
To effectively balance speckle smoothing and preservation of edges and radiation, a novel anisotropic diffusion filter was developed that uses a directional coherent coefficient. The proposed filter effectively improves the edge detection operator of a traditional anisotropic diffusion filter. The new edge detection operator calculates 16 direction coherence coefficients to avoid the interference of the edge direction. For the diffusion function, the proposed method directly uses the detected directional coherent edge as the diffusion coefficient, which simplifies the calculation of the diffusion function and avoids the adverse effects of inaccurate estimation of the diffusion function threshold for a traditional anisotropic diffusion filter. The influence of the number of iterations and time steps on the proposed filter was analyzed. A series of experiments was conducted with a simulated image and three real synthetic-aperture radar images from different sensors. The results confirmed that the proposed method not only significantly reduces speckle but also effectively preserves the edge and radiation information of images.
Highlights
When no one scatterer yields a reflected signal much stronger than the others, the received echo signal can be viewed as the incoherent sum of several backscattered waves [1]
Speckle noise need to be effectively suppressed before synthetic aperture radar (SAR) image analysis
The proposed algorithm was applied to a simulated image with multiplicative speckle noise to validate its effectiveness
Summary
When no one scatterer yields a reflected signal much stronger than the others (i.e., a distributed target), the received echo signal can be viewed as the incoherent sum of several backscattered waves [1]. Speckle is inevitably generated by the above SAR coherent imaging system, which carries real electromagnetic information of the observed surface [1,2]. This information is considered to be noise for image analysis because speckle hides many details of the observed scene. Speckle noise need to be effectively suppressed before SAR image analysis
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