In-orbit spacecraft-s earth and atmosphere radiation environment analysis
-
摘要: 为得出定量化的遥感观测地气光环境数据,建立了简化的航天器地气光分布计算模型,首先将航天器及其各类运行轨道归纳到统一的照明模式中,地气光的分布主要考察航天器轨道面与地球晨昏面的夹角,然后考察航天器在每轨中的具体相位,以建立照度的几何传递关系;随后考察太阳辐照经地表后,最终到达航天器遥感观测载荷的光照度.计算结果能反映地气光在载荷观测方向2π半球视场内的分布情况,根据分布随空间变化的具体量级,对不同的离轴角进行照度积分,可转化为对观测仪器的地气光抑制能力要求.Abstract: To provide quantitative reference for related space mission analysis, the remote sensing the earth and atmosphere radiation (EAR) simplified model was proposed. A universal irradiation model that suited for most kinds of spacecraft orbit was introduced, which reduced different orbit scenarios to different angles between the orbit plane and the dawn-dusk plane of the earth. Then the spacecraft position on each orbit, or the phase, was taken into account. The spacecraft remote sensing mode determined the main axis and field of view(FOV).Irradiance propagation process was described with common hypothesis. Then the result display in two ways: distribution map and quantitative graph, which the former shows the relative position where the EAR is in the spacecraft-s 2π hemisphere FOV, then the latter shows the magnitude distribution based on the average albedo. The following magnitude integral according to different off-axis angle could transform the faint target detecting requirement of space mission into the payload’s stray light/radiation blocking requirement. A low earth orbit(LEO) observation example has been demonstrated at visible band.
-
Key words:
- earth atmosphere /
- remote sensing /
- dawn-dusk plane
-
[1] 陈创买,李叶新,周文,等.地气系统辐射平衡特征的观测研究[J].中山大学学报,2003,42(1):87-90 Chen Chuangmai,Li Yexin,Zhou Wen,et al.An observation study on the radiation budget characteristic for earth-atmospheric system[J].ACTA Scientiarum Naturalium Universitatis SUN Yat-seni,2003,42(1):87-90(in Chinese) [2] Yang Chunping,Meng Xueqing,Wu Jian.Approximate model for calculating radiance of atmospheric background //Zhang Yudong.4th International Symposium on Advanced Optical Manufacturing and Testing.Bellingham:SPIE,2009,7283(3S):1-5 [3] Guo Q,Xu J M,Zhang W J.Stray light modeling and analysis for the FY-2 meteorological satellite[J].International Journal of Remote Sensing,2005,26(13):2817-2830 [4] Zong Y Q,Steven W B,Gerhard M,et al.Characterization and correction of stray light in optical instruments //Roland Meynart,Sensors,Systems,and Next-Generation Satellites XI.Bellingham:SPIE,2007,6744(1L):1-6 [5] Uwe S.Intelligent error correction method applied on active pixel sensor based star tracker // Jean-Pierre Chatard,Detectors and Associated Signal Processing II.Bellingham:SPIE,2005,5964(0J):1-8 [6] 唐勇,卢欣,郝云彩.星敏感器杂光抑制分析[J].航天控制,2004,22(3):58-61 Tang Yong,Lu Xin,Hao Yuncai.Suppression and analysis of stray light in a star sensor[J].Aerospace Control,2004,22(3):58-61(in Chinese) [7] 杜胜华,夏新林,孙创.星载多波段红外光学系统的杂散辐射分析[J].光子学报,2008,37(4):763-767 Du Shenghua,Xia Xinlin,Sun Chuang.Analysis on stray radiation of multi-spectral infrared remote sensor[J].Acta Photonics Sinica,2008,37(4):763-767(in Chinese) [8] 肖相国,王忠厚,白加光,等.地表反照对天基测量相机的影响[J].光子学报,2009,38(2):375-361 Xiao Xiangguo,Wang Zhonghou,Bai Jiaguang,et al.Influence of earth radiation on photoelectric detection system based on space[J].Acta Photonics Sinica,2009,38(2):375-361(in Chinese) [9] 张云松,冯钟葵,石丹.卫星观测方位对遥感成像的影响[J].遥感学报,2007,11(4):433-438 Zhang Yunsong,Feng Zhongkui,Shi Dan.The influence of satellite observation direction on remote sensing image[J].Journal of Remote Sensing,2007,11(4):433-438(in Chinese)
点击查看大图
计量
- 文章访问数: 3191
- HTML全文浏览量: 40
- PDF下载量: 1363
- 被引次数: 0