Onboard relative radiation calibration based on deployable solar diffuser

doi:10.11834/jrs.20210064

CORC > 长春光学精密机械与物理研究所 > 中国科学院长春光学精密机械与物理研究所

	Onboard relative radiation calibration based on deployable solar diffuser
	L. Wang; H. Wu; Y. Bai; X. Meng; X. He; S. Huang and S. Yang
刊名	Yaogan Xuebao/Journal of Remote Sensing
	2021
卷号	25 期号:10 页码:2067-2075
ISSN号	10074619
DOI	10.11834/jrs.20210064
英文摘要	Optical satellite is an important means to obtain remote sensing data by earth observation, and radiation calibration is an important guarantee for quantitative remote sensing. As the satellite sensor is subject to mechanical vibration and acceleration shock during transportation and launch, also taking into account of the aging of optoelectronic devices during long-term on-orbit operation, the radiation performance of the sensor is inevitably affected. As such, the on-orbit radiation calibration is needed to correct the sensor radiation performance. On-orbit calibration is a very important on-orbit calibration method that uses on-satellite calibration devices to measure the radiometric calibration data after the satellite launch. The on-satellite calibrators include calibration lamps, Solar Diffusers (SD) and lunar calibrators, etc. The relative radiometric calibration is used to reduce or eliminate the image high frequency vertical fringe and stripe noise, which are caused by the response difference between detection elements. This process is the premise and foundation of the quantitative application of remote sensing image. In the background of the national major project of global cartography, in order to explore the application potential of relative radiometric calibration for the deployable solar diffuse reflector similar to the Jilin-1 GP satellite, a relative radiometric calibration method based on the solar diffuser is proposed in this paper, which is in order to solve the shortcomings of conventional relative radiometric calibration methods. The method overcomes the dependence of relative radiometric calibration on the accumulation and the uniform consistency of features in the data by imaging through the closing process of the solar diffuse reflector. The solar diffuser is driven by the satellite mechanical structure to close up and adjusts the solar incident energy at the entrance pupil of sensor, by this way acquiring the onboard calibration image. The calibration image covers the whole gray dynamic range of the sensor. Then, the relative radiation calibration coefficients are solved by histogram matching algorithm. In order to verify the method proposed in this paper, the calibration experiment is carried out with the sensor of multispectral spectrometer on JL-1 GP satellite. The correction effect of calibration coefficients on original images are tested and the accuracy of relative radiation calibration is quantitatively analyzed by using non-uniformity. The experimental results show that the calibration coefficients could effectively eliminate the vertical high-frequency fringe and strip noise of the panchromatic and multispectral original image of the ground object. The results of quantitative analysis show that the method proposed in this paper could achieve a good correction effect in the whole dynamic range of sensor's grayscale, and the relative radiometric calibration accuracy of each band is better than 2%, which fulfills the demand for high-quality remote sensing image applications. On-orbit experiments fully demonstrate that the radiometric calibration method proposed in this paper can complete the calibration task using one solar diffuse reflector closing action, and the proposed method could effectively overcome the dependence of relative radiometric calibration on data accumulation and the uniform consistency of features in the data, which provides a reliable guarantee for quantitative remote sensing applications during the satellite's on-orbit operation. 2021, Science Press. All right reserved.
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内容类型	期刊论文
源URL	[http://ir.ciomp.ac.cn/handle/181722/65481]
专题	中国科学院长春光学精密机械与物理研究所
推荐引用方式 GB/T 7714	L. Wang,H. Wu,Y. Bai,et al. Onboard relative radiation calibration based on deployable solar diffuser[J]. Yaogan Xuebao/Journal of Remote Sensing,2021,25(10):2067-2075.
APA	L. Wang,H. Wu,Y. Bai,X. Meng,X. He,&S. Huang and S. Yang.(2021).Onboard relative radiation calibration based on deployable solar diffuser.Yaogan Xuebao/Journal of Remote Sensing,25(10),2067-2075.
MLA	L. Wang,et al."Onboard relative radiation calibration based on deployable solar diffuser".Yaogan Xuebao/Journal of Remote Sensing 25.10(2021):2067-2075.