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A Fast Filtering Method for Polarimetric SAR Image

A filter processing and image technology, applied in the field of image processing, can solve the problems that non-local average algorithms are difficult to apply to engineering practice, low calculation rate, small application area, etc., to reduce repeated calculations, improve processing speed, and calculation overhead small effect

Inactive Publication Date: 2017-01-04
THE PLA INFORMATION ENG UNIV
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Problems solved by technology

However, an important problem of the non-local mean algorithm is the amount of calculation. In the NLM algorithm, the calculation of the similarity measure between pixels is the most time-consuming, because the similarity between any two image blocks must be calculated by calculating the corresponding pixel. The difference between them is then accumulated to obtain
It is conceivable that with the sliding of the filtering window, there are a large number of repeated operations in the similarity measurement operation between pixels, which makes it difficult for the existing non-local mean algorithm to be applied to engineering practice. The application area is small, the calculation rate is low, and the cost is high. This needs to provide a non-local mean filtering fast algorithm for polarimetric SAR, but there is no public report so far

Method used

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  • A Fast Filtering Method for Polarimetric SAR Image
  • A Fast Filtering Method for Polarimetric SAR Image
  • A Fast Filtering Method for Polarimetric SAR Image

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Embodiment Construction

[0039] Embodiments of the present invention are further described below in conjunction with the accompanying drawings:

[0040] as attached figure 1 As shown, it is a flow chart of the present invention to perform fast filtering of polarimetric SAR images. Using the present invention, the processing flow of fast filtering of polarimetric SAR images is as follows:

[0041] 1) Load the polarimetric SAR image data covariance matrix C, the image size is m×n×9 (unit is pixel), where C ij is a single-channel image, i and j represent the combination of radar transmission and reception polarization, C 11 、C 12 、C 13 、C 21 、C 22 、C 23 、C 31 、C 32 、C 33 is the 9 single-channel image elements in the formula;

[0042] 2) Expand the size of the above nine single-channel images to (m+2W+2p)×(n+2W+2p), and fill the edge with the gray value of the nearest adjacent pixel to obtain a new image C′ ij , where W is half the length of the search window Ω and is rounded down, p is half ...

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Abstract

The invention relates to a quick filtering processing method for a polarized SAR (synthetic aperture radar) image. The filtering processing speed for the polarized SAR image can be effectively improved, and cost is saved. The quick filtering processing method has the technical scheme that the quick filtering processing method comprises the following steps: 1) loading and expanding polarized SAR image data to make preparations for filtering; 2) calculating through the expanded polarized SAR image to obtain a total-power image; 3) on the basis of a search window[omega] in non-local means, calculating by an integral image to realize quick filtering processing; and 4) composing a pseudo-color image to a whole polarized covariance matrix C by a Pauli vector method, and outputting a filtering result. A traversal calculation range is greatly lowered, computation overheads are effectively reduced, and polarized SAR filtering processing speed is quickened. An applicable range of non-local means filtering processing is expanded, an integrogram is utilized, on one hand, calculation frequencies of similarity measurement are reduced, and on the other hand, rectangular window integral calculation frequencies are reduced. Speckle inhibition effect on the SAR image is better than that of the prior art.

Description

technical field [0001] The invention relates to the technical field of image processing, in particular to a fast filtering processing method for polarimetric SAR images, which can be used for preprocessing of scene analysis and image understanding of polarimetric SAR images. Background technique [0002] Synthetic Aperture Radar (SAR) is a radar that uses the relative motion of the radar and the target to synthesize a smaller real antenna aperture into a larger equivalent antenna aperture by data processing, also known as synthetic aperture radar. SAR is not limited by weather, light and other conditions, and can observe the earth continuously and in real time. Polarization SAR provides richer target information for information acquisition and processing in remote sensing images, making it play an increasingly important role in the application of collecting physical and electromagnetic structure information of the ground surface or ground cover. Because polarimetric SAR is ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06T5/00
Inventor 陈建宏牛朝阳赵拥军
Owner THE PLA INFORMATION ENG UNIV
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