A building approach for space-borne polarization SAR Faraday rotation effect correction platform

Abstract

The invention is a building approach for space-borne polarization SAR Faraday rotation effect correction platform, which has eight steps. Step 1: The linear-polarization SAR complex image data format processing; Step 2: The linear-polarization SAR complex image data memory block processing; Step 3: The complex covariance matrix calculation of SAR image data block; Steps 4: The imaginary part construction complex number statistics based on the complex covariance; Step 5: Calculate the phase angle of the complex number statistics to obtain the estimated value of the Faraday rotation angle omega; Step 6: Use the global navigation system TEC data to obtain the estimated value of Faraday rotation angle of non-ambiguity omega<F>; Step 7: Use omega<F> for correction processing on the effect of ionospheric Faraday rotation; Step 8: In accordance with Step 3 to Step 7, conduct the correction processing of Faraday rotation effect on each complex image data block until the completion of correction processing. The invention presents a complete solution to the angle ambiguity in the existing Faraday rotation estimation method and has a wide range of practical value and application prospect.

Description

(1) Technical field [0001] The invention relates to a correction processing platform for the ionospheric Faraday rotation effect of a spaceborne polarization synthetic aperture radar (SAR), in particular to a construction method for a spaceborne polarization SAR Faraday rotation effect correction platform suitable for long wavelengths. It belongs to the technical field of signal processing. (2) Background technology [0002] Spaceborne Synthetic Aperture Radar (SAR) is a space-to-Earth observation system that has developed rapidly in recent years. Because spaceborne SAR has all-weather and all-weather earth observation capabilities and has certain penetrating power, it is widely used in military reconnaissance, land surveying and mapping, resource detection, ocean observation and other fields. Space-borne SAR achieves space-to-earth observation by transmitting chirp signals and receiving echo signals scattered by the ground. During the propagation of the spaceborne SAR sig...

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Problems solved by technology

[0013] 1. Purpose: The purpose of the present invention is to provide a construction method of a spaceborne polarimetric SAR Faraday rotation effect correction platform, which overcomes the deficiencies of the existing Faraday rotation effect correction methods and satisfactorily solves the existing Faraday rotation effect correction method. The 90° Angle Ambiguity Existed in the Rotation Angle Estimation Method

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