高斯曲线优化能见度与气溶胶光学厚度转换模型

余娟; 龚威; 朱忠敏

doi:10.11834/jrs.20110009

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高斯曲线优化能见度与气溶胶光学厚度转换模型
Optimized transformation model of aerosol optical depth and visibility based on Gaussian curve
2011年15卷第5期页码：1008-1023
纸质出版日期： 2011 ，
DOI： 10.11834/jrs.20110009

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[1]余娟,龚威,朱忠敏.高斯曲线优化能见度与气溶胶光学厚度转换模型[J].遥感学报,2011,15(05):1008-1023.

Optimized transformation model of aerosol optical depth and visibility based on Gaussian curve[J]. Journal of Remote Sensing, 2011,15(5):1008-1023.
[1]余娟,龚威,朱忠敏.高斯曲线优化能见度与气溶胶光学厚度转换模型[J].遥感学报,2011,15(05):1008-1023. DOI： 10.11834/jrs.20110009.

Optimized transformation model of aerosol optical depth and visibility based on Gaussian curve[J]. Journal of Remote Sensing, 2011,15(5):1008-1023. DOI： 10.11834/jrs.20110009.

摘要

大气气溶胶是影响对地观测定量精度的最主要不确定性因素。随着定量遥感的发展

对气溶胶光学厚度数据的精度提出了更高要求。在广泛应用的基于辐射传输模型大气校正研究中

需要输入气溶胶光学厚度等关键参数

但与对地观测影像数据同时相的气溶胶光学厚度获取较难

而水平能见度作为表征气溶胶光学特性的间接参数可通过广泛分布的气象台站获得

可将能见度转换得到的气溶胶光学厚度数据作为同时相数据输入传输模型进行大气校正计算。本文以实测的能见度和气溶胶光学厚度数据为基础

通过拟合气溶胶标高其随时间的变化对Peterson模型进行了修正。对修正后的模型进行精度验证得到RMSE为0.254

结果表明优化的模型对精度有较大提升。

Abstract

Atmospheric aerosol is the primary uncertainty of earth observation precision for quantitative analysis.With the development of quantitative remote sensing

there is a higher precision requirement of aerosol optical depth.Aerosol optical depth is a key parameter in atmospheric correction study of radiation transfer model.It is difficult to obtain AOD date relevant to earth observation images.However

as an indirect parameter of aerosol optical properties

horizontal visibility can be obtained from widely distributed weather stations.AOD data transformed from visibility are useful in the atmospheric correction of radiation transfer model.In this paper

Peterson model is optimized by fitting the changes of aerosol scale height based on the measured data of visibility and aerosol optical depth.RMSE of the optimized model is 0.254.The result shows that the optimized model has a higher precision.