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作 者:冯晓晴 张肃[1] 战俊彤[1] 付强[1] 段锦[2] 李英超[1] 陆社添 Feng Xiaoqing;Zhang Su;Zhan Juntong;Fu Qiang;Duan Jin;Li Yingchao;Lu Shetian(Institute of Space Ophotoelectronics Technology,Changchun University of Science and Technology,Changchun 130022,Jilin,China;School of Electronics and Information Engineering,Changchun University of Science and Technology,Changchun 130022,Jilin,China)
机构地区:[1]长春理工大学空间光电技术研究所,吉林长春130022 [2]长春理工大学电信学院,吉林长春130022
出 处:《光学学报》2024年第19期222-232,共11页Acta Optica Sinica
基 金:吉林省科技发展计划(20240101342JC);国家自然科学基金(62127813,62375027);重庆市自然科学基金(CSTB2023NSCO-MSX0504)。
摘 要:采用倍加累加方法与全时段实测相结合的方式对不同雾天等非理想环境下天空偏振模式分布进行研究。首先,基于矢量辐射传输原理分别建立适用于海雾和陆地雾环境的天空光偏振分布仿真模型;其次,利用天空偏振图像测试系统,采集实际海雾和陆地雾环境的偏振分布,分析不同时段太阳位置以及光学厚度变化对偏振分布的影响;最后,将陆地雾环境与海雾环境下的天空偏振分布进行对比分析。结果表明:随着全天不同时段太阳位置变化,偏振分布呈规律性变化;随着光学厚度的增加,海雾环境下的偏振度逐渐减小;在相同的光学厚度下,海雾环境的偏振度比陆地雾环境大;对海雾和陆地雾的仿真和测试结果的皮尔逊相关系数和均方根误差进行计算,得到皮尔逊相关系数的最小值为71.25%,均方根误差最大值为26.81%。本研究为雾天等非理想环境下天空光偏振导航、偏振遥感等技术提供理论支撑。Objective In complex environments,unpolarized sunlight undergoes absorption and scattering by atmospheric molecules and fog particles,leading to polarization phenomena that form stable skylight polarization patterns.These patterns change with variations in atmospheric conditions,time,and other factors.The composition,particle size,and properties of aerosols vary significantly over time and across space,making it difficult to quantify their influence on skylight polarization distribution.To accurately simulate the radiative transfer of sunlight through aerosol media,it is essential to consider the aerosols'physical and optical characteristics,as well as their environmental context.Sea fog and land fog differ in their physical and optical properties,which in turn affect the formation of polarization distributions in the sky.However,there has been limited quantitative comparison between theoretical models and field measurements in existing studies.Building on previous research,we simulate the vertical transmission of aerosols by layering the atmospheric medium based on particle size and using the adding-doubling method to solve atmospheric radiation transmission problems.A simulation model for the skylight polarization distribution is developed for both sea and land aerosols.In addition,we design and implement an all-weather,full-period polarization acquisition system to conduct actual measurements and verify the model in both sea and land environments.By quantifying the difference in polarization distribution between sea fog and land fog,we hope to enhance our understanding of sky polarization patterns under different aerosol conditions.It also provides a reference for applying skylight polarization characteristics in polarimetric navigation across sea and land environments.Methods We use the adding-doubling method to build simulation models for skylight polarization distribution based on the vector radiative transfer equation,applicable to both sea fog and land fog environments.We also develop an allweather,full-t
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