Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration

The P-band spaceborne SAR system faces the problem of a lack of available reference targets for radiometric calibration. Traditional artificial passive calibrators such as trihedral corner reflectors may be hard to be adopted to P-band SAR calibration because of weight, size, manufacture, and instal...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Shaoyan Du, Jun Hong, Yu Wang, Tian Qiu, Kaichu Xing, Jianjun Huang
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
Q
Acceso en línea:https://doaj.org/article/5f48688085d0409d86d6e853101a8d91
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:5f48688085d0409d86d6e853101a8d91
record_format dspace
spelling oai:doaj.org-article:5f48688085d0409d86d6e853101a8d912021-11-11T18:53:19ZAnalysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration10.3390/rs132143002072-4292https://doaj.org/article/5f48688085d0409d86d6e853101a8d912021-10-01T00:00:00Zhttps://www.mdpi.com/2072-4292/13/21/4300https://doaj.org/toc/2072-4292The P-band spaceborne SAR system faces the problem of a lack of available reference targets for radiometric calibration. Traditional artificial passive calibrators such as trihedral corner reflectors may be hard to be adopted to P-band SAR calibration because of weight, size, manufacture, and installation cost. The parabolic antenna is considered as a potential calibrator due to its stable scattering characteristics and large RCS. One of the criteria of the calibrator is that the beamwidth of the azimuth RCS pattern needs to be much larger than the SAR antenna beamwidth, which is convenient for alignment and obtaining a constant RCS value. It is generally believed that the parabolic antenna can only be used when it is fully aligned to the SAR sensor. However, the P-band spaceborne SAR system usually has a wide beamwidth because of the long wavelength. In contrast, the azimuth RCS pattern of the parabolic antenna has a narrow beamwidth, which will cause inconstant RCS of the calibrator within the synthetic aperture period, thereby introducing an additional calibration error. Due to the imbalance between the SAR antenna beamwidth and the RCS pattern beamwidth, the criterion of using the parabolic antenna as a calibrator may need further discussion. This article analyzes the influence of the RCS pattern of the parabolic antenna on the radiometric calibration and establishes the quantitative error model. Based on the error model, the error analysis is carried out for the two cases of alignment and misalignment. The theoretical analysis shows that the calibration accuracy will decrease if without additional error compensation despite a fully aligned parabolic antenna. Under the case of misalignment, the parabolic antenna can also be used for calibration, even when introducing smaller errors. To verify this conclusion, the RCS pattern of a parabolic antenna is used for the P-band imaging simulation and calibration simulation. The results show that the narrow RCS pattern will introduce a non-negligible error in the calibration when fully aligned. The parabolic antenna can also assist in calibration in the case of misalignment. In addition, the calibration experiment shows that, after compensation with the error model, calibration accuracy has been effectively improved.Shaoyan DuJun HongYu WangTian QiuKaichu XingJianjun HuangMDPI AGarticleP-band SARradiometric calibrationtargets of opportunityScienceQENRemote Sensing, Vol 13, Iss 4300, p 4300 (2021)
institution DOAJ
collection DOAJ
language EN
topic P-band SAR
radiometric calibration
targets of opportunity
Science
Q
spellingShingle P-band SAR
radiometric calibration
targets of opportunity
Science
Q
Shaoyan Du
Jun Hong
Yu Wang
Tian Qiu
Kaichu Xing
Jianjun Huang
Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration
description The P-band spaceborne SAR system faces the problem of a lack of available reference targets for radiometric calibration. Traditional artificial passive calibrators such as trihedral corner reflectors may be hard to be adopted to P-band SAR calibration because of weight, size, manufacture, and installation cost. The parabolic antenna is considered as a potential calibrator due to its stable scattering characteristics and large RCS. One of the criteria of the calibrator is that the beamwidth of the azimuth RCS pattern needs to be much larger than the SAR antenna beamwidth, which is convenient for alignment and obtaining a constant RCS value. It is generally believed that the parabolic antenna can only be used when it is fully aligned to the SAR sensor. However, the P-band spaceborne SAR system usually has a wide beamwidth because of the long wavelength. In contrast, the azimuth RCS pattern of the parabolic antenna has a narrow beamwidth, which will cause inconstant RCS of the calibrator within the synthetic aperture period, thereby introducing an additional calibration error. Due to the imbalance between the SAR antenna beamwidth and the RCS pattern beamwidth, the criterion of using the parabolic antenna as a calibrator may need further discussion. This article analyzes the influence of the RCS pattern of the parabolic antenna on the radiometric calibration and establishes the quantitative error model. Based on the error model, the error analysis is carried out for the two cases of alignment and misalignment. The theoretical analysis shows that the calibration accuracy will decrease if without additional error compensation despite a fully aligned parabolic antenna. Under the case of misalignment, the parabolic antenna can also be used for calibration, even when introducing smaller errors. To verify this conclusion, the RCS pattern of a parabolic antenna is used for the P-band imaging simulation and calibration simulation. The results show that the narrow RCS pattern will introduce a non-negligible error in the calibration when fully aligned. The parabolic antenna can also assist in calibration in the case of misalignment. In addition, the calibration experiment shows that, after compensation with the error model, calibration accuracy has been effectively improved.
format article
author Shaoyan Du
Jun Hong
Yu Wang
Tian Qiu
Kaichu Xing
Jianjun Huang
author_facet Shaoyan Du
Jun Hong
Yu Wang
Tian Qiu
Kaichu Xing
Jianjun Huang
author_sort Shaoyan Du
title Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration
title_short Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration
title_full Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration
title_fullStr Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration
title_full_unstemmed Analysis of Using the Parabolic Antenna as the Passive Calibrator for P-Band Spaceborne SAR Radiometric Calibration
title_sort analysis of using the parabolic antenna as the passive calibrator for p-band spaceborne sar radiometric calibration
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/5f48688085d0409d86d6e853101a8d91
work_keys_str_mv AT shaoyandu analysisofusingtheparabolicantennaasthepassivecalibratorforpbandspacebornesarradiometriccalibration
AT junhong analysisofusingtheparabolicantennaasthepassivecalibratorforpbandspacebornesarradiometriccalibration
AT yuwang analysisofusingtheparabolicantennaasthepassivecalibratorforpbandspacebornesarradiometriccalibration
AT tianqiu analysisofusingtheparabolicantennaasthepassivecalibratorforpbandspacebornesarradiometriccalibration
AT kaichuxing analysisofusingtheparabolicantennaasthepassivecalibratorforpbandspacebornesarradiometriccalibration
AT jianjunhuang analysisofusingtheparabolicantennaasthepassivecalibratorforpbandspacebornesarradiometriccalibration
_version_ 1718431704247435264