Tensor based mean-shift polsar image enhancement

Author

Beaulieu, Jean-Marie

fYear

2014

fDate

13-18 July 2014

Firstpage

4544

Lastpage

4547

Abstract

The mean-shift approach uses a local estimation of the pdf and moves every data points toward the modes. The direction is calculated from the mean value of surrounding points weighted by a Gaussian kernel. An advantage of the technique is that both radiometric and spatial information could be used in the weighted mean calculation. For polarimetric SAR images, we use likelihood ratio as radiometric similarity or distance measure. The spatial distance between pixels is also used with a Gaussian weight. Contours are well preserved because pixels on one side are dissimilar to pixels on the other side. To improve contour preservation, we examine how the tensor of pixel position can be integrated into the weight calculation. The tensor is calculated from weighted pixel position inside a window. Good PolSAR image smoothing is obtained.

Keywords

Gaussian processes; distance measurement; estimation theory; image enhancement; probability; radar imaging; radar polarimetry; radiometry; synthetic aperture radar; tensors; Gaussian kernel; Gaussian weight; PDF estimation; PolSAR image smoothing; contour preservation; distance measurement; mean-shift PoLSAR image enhancement; polarimetric SAR imaging; radiometric; spatial information; tensor; weighted mean value calculation; weighted pixel position; Covariance matrices; Filtering; Kernel; Radiometry; Smoothing methods; Synthetic aperture radar; Tensile stress; PolSAR image; image filtering; mean-shift; orientation tensor;

fLanguage

English

Publisher

ieee

Conference_Titel

Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International

Conference_Location

Quebec City, QC

Type

conf

DOI

10.1109/IGARSS.2014.6947503

Filename

6947503