首页|Polarimetric SAR cross-calibration method based on stable distributed targets
Polarimetric SAR cross-calibration method based on stable distributed targets
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NETL
NSTL
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Polarimetric calibration is essential for the pre-processing of Polarimetric Synthetic Aperture Radar(PolSAR)data because it effectively mitigates polarimetric distortions in the measured PolSAR data.Traditional methods of polarimetric calibration employ man-made calibrators that offer high accuracy.However,the frequency of calibration is often limited due to the labor-intensive and time-consuming nature of deploying such calibrators.Some polarimetric calibra-tion methods based on distributed targets in nature enable more frequent calibration.Nevertheless,these methods are constrained by the availability of specific distributed targets with known polarimetric properties for estimating parameters related to co-polarization chan-nel imbalance(co-pol-imba)parameters.If distributed targets are not appropriately selected or suitable targets are absent within the image scene,the accuracy of calibration will be com-promised.To address this challenge,this paper introduces the idea of cross-calibration,which uses calibrated PoISAR data to determine the real polarimetric property of distributed targets and cross-estimates co-pol-imba parameters for uncalibrated PolSAR data.Furthermore,con-sidering the disparities in imaging geometry between calibrated and uncalibrated PolSAR data,the Cross-Co-Polarization Ratio(CCPR)coefficients are proposed to select stable distributed targets in both the calibrated PolSAR data and the uncalibrated PoISAR data.This approach not only takes into account the impact of co-pol-imba on feature extraction but can also be applied in a broader range of scenes.The real data experiments on the Uninhabited Aerial Vehicle Synthetic Aperture Radar(UAVSAR)data show that the estimated results of the cross-calibration method for co-pol-imba are comparable to the polarimetric calibration method based on man-made calibrators,with an amplitude difference of 0.17 dB and a phase difference of 0.69°.
NETL
NSTL
万方数据
