Structure detection and statistical adaptive speckle filtering in SAR images 论文

1993International Journal of Remote Sensing引用 575
Synthetic Aperture Radar (SAR) Applications and TechniquesImage and Signal Denoising MethodsOcean Waves and Remote Sensing

详细信息

发表期刊/会议
International Journal of Remote Sensing
发表日期
1993-06-01
发表年份
1993

关键词

Synthetic Aperture Radar (SAR) Applications and TechniquesImage and Signal Denoising MethodsOcean Waves and Remote Sensing

摘要

Abstract Current speckle filters attempt to restore the radar reflectivity using only the multiplicative speckle noise assumption. The best known filters, namely the Frost, Lee or Kuan niters are adaptive filters based on the local statistics, computed in a fixed square window. In this way, the speckle is reduced as a function of the heterogeneity measured by the local coefficient of variation. When the radar reflectivity undergoes significant variations due to the presence of strong scatterers or structural features (edges or lines) in the processing window, such speckle filtering is less effective. In this paper it is shown that the filtering process can be controlled both by the coefficient of variation and by various geometrical ratio detectors. Through shape adaptive windowing, these detectors allow the use of large window sizes for better speckle reduction while preserving spatial resolution and structural features. The backscattered intensity is modelled as K-distributed within speckled targets and the filter uses a Bayesian approach which allows an explicit use of the multiplicative noise model and the radar reflectivity distribution.