Volume 40 Issue 6
Nov.  2020
Turn off MathJax
Article Contents
HAN Yi, CHEN Ming, DUAN Chenglin, OUYANG Qi. Calculation Method of Spacecraft Solar Pressure Area Based on Target Characteristics[J]. Chinese Journal of Space Science, 2020, 40(6): 1109-1116. doi: 10.11728/cjss2020.06.1109
Citation: HAN Yi, CHEN Ming, DUAN Chenglin, OUYANG Qi. Calculation Method of Spacecraft Solar Pressure Area Based on Target Characteristics[J]. Chinese Journal of Space Science, 2020, 40(6): 1109-1116. doi: 10.11728/cjss2020.06.1109

Calculation Method of Spacecraft Solar Pressure Area Based on Target Characteristics

doi: 10.11728/cjss2020.06.1109
  • Received Date: 2019-08-12
  • Rev Recd Date: 2019-12-12
  • Publish Date: 2020-11-15
  • Solar Radiation Pressure (SRP) is one the most important forces impacting the precision of spacecraft's orbit determination and prediction in deep space detection. In deep space exploration mission, there is no special solar pressure model for each spacecraft at present. The usual method is to simplify the shape and structure of spacecraft, and estimate the cross-sectional area and SRP area. In order to improve the accuracy of the SRP model, it is necessary to consider not only the occlusion relationship between different parts of the spacecraft in the light direction, but also the reflection characteristics of different materials on the surface of the spacecraft. Aiming at actual mission requirement, the method of calculating solar pressure area based on target characteristics is studied. Based on the information such as target's shape, size, surface materials and their optical characteristics, the analytical model of SRP is built. According to the relevant parameter information, the normal vector of each micro effective plane element, the angle between the plane element and the incident direction of the light, the type of material represented by the plane element, the relationship between mutual occlusion and the reflection characteristics of the material are calculated respectively. The calculation efficiency and precision is increased effectively, and the target's SRP area, the cross section area and the scale factor can be calculated fast. By comparing with theoretical SRP area of rectangular body, the simulated results are proved to be correct. At last one complex spacecraft's SRP areas are calculated and analyzed. This research can provide meaningful and significant references for the SRP modeling solution, orbit determination and forecasting.

     

  • loading
  • [1]
    CHEN Qiuli, YANG Hui, CHEN Zhonggui, et al. Solar radiation pressure modeling and application of BDS satellite[J]. Acta Geod. Cartogr. Sin., 2019, 48(2):169-175(陈秋丽, 杨慧, 陈忠贵, 等. 北斗卫星太阳光压解析模型建立及应用[J]. 测绘学报, 2019, 48(2):169-175)
    [2]
    CUI Wen, WANG Jiasong, BAOYIN Hexi. Analysis of solar pressure perturbation impacting on satellite attitude-orbit coupling[J]. Chin. J. Space Sci., 2012, 32(3):424-429(崔文, 王家松, 宝音贺西. 光压摄动对卫星姿态轨道耦合的影响分析[J]. 空间科学学报, 2012, 32(3):424-429)
    [3]
    ISABELLE Jean, ALFRED Ng, ARUN K Misra. Impact of solar radiation pressure modeling on orbital dynamics in the vicinity of binary asteroids[J]. Acta Astronaut., 2019, 165(12):167-183
    [4]
    LIU Li, DONG Xurong, ZHENG Kun, et al. Solar pressure macro-model for geostationary orbit satellite space-based orbit determination using space-borns GPS[J]. J. Geomat. Sci. Technol., 2011, 28(5):324-328(柳丽, 董绪荣, 郑坤, 等. 星载GPSGEO卫星定轨的太阳光压宏观模型[J]. 测绘科学技术学报, 2011, 28(5):324-328)
    [5]
    CHEN Qiuli, WANG Haihong, CHEN Zhonggui. Analysis modeling and verification of solar radiation pressure for navigation satellite[J]. Chin. Space Sci. Technol., 2014, 34(4):16-23(陈秋丽, 王海红, 陈忠贵. 导航卫星高精度太阳光压摄动分析建模及验证[J]. 中国空间科学技术, 2014, 34(4):16-23)
    [6]
    LI Tieying, YANG Hui, WANG Haihong. Navigation satellite solar radiation pressure modeling and analysis of effect of surface optical parameters[J]. J. Astronaut., 2015, 36(6):731-738(李铁映, 杨慧, 王海红. 导航卫星光压建模及表面光学特性参数影响分析[J]. 宇航学报, 2015, 36(6):731-738)
    [7]
    EAPEN Roshan Thomas, FRUEH Carolin. Averaged solar radiation pressure modeling for high area-to-mass ratio objects in geosynchronous orbits[J]. Adv. Space Res., 2018, 62(1):127-141
    [8]
    LI Ran, HU Xiaogong, TANG Chengpan, et al. Modeling and precision analysis of solar radiation pressure for BDS hybrid constellation[J]. Geomat. Inf. Sci. Wuhan Univ., 2018, 43(7):1063-1070(李冉, 胡小工, 唐成盼, 等. 北斗卫星导航系统混合星座的光压摄动建模和精度分析[J]. 武汉大学学报: 信息科学版, 2018, 43(7):1063-1070)
    [9]
    PENG Hanbing, YANG Yuanxi, WANG Gang. Application analysis of different empirical solar radiation models for orbit determination of BDS satellites[J]. J. Geomat. Sci. Technol., 2017, 34(4):347-352(彭汉兵, 杨元喜, 王刚. 不同经验太阳光压模型对于北斗卫星定轨的适用性分析[J]. 测绘科学技术学报, 2017, 34(4):347-352)
    [10]
    EDUARD Kuznetsov, VLADISLAV Gusev, IVAN Malyutin. Secondary resonances due to solar radiation pressure in the vicinity of Glonass and GPS regions[J]. J. Space Safety Eng., 2019, 6(4):276-283
    [11]
    RODRIGUEZ-SOLANO C J, HUGENTOBLER U, STEIGENBERGER P. Adjustable box-wing model for solar radiation pressure impacting GPS satellites[J]. Adv. Space Res., 2012, 49(1):1113-1128
    [12]
    HAN Yi, SUN Huayan. Advances in space target optical scattering character research[J]. Infrared Laser Eng., 2013, 42(3):758-766(韩意, 孙华燕. 空间目标光学散射特性研究进展[J]. 红外与激光工程, 2013, 42(3):758-766)
    [13]
    ZIEBART Marek, DARE P. Analytical solar radiation pressure modeling for GLONASS using a pixel array[J]. J. Geod., 2011, 75(1):587-599
    [14]
    JIAO Zilong, HU Songlin, JIANG Lixiang. General algorithm for calculating space environmental exposure flux based on Monte-Carlo ray tracing[J]. Spacecraft Environ. Eng, 2019, 36(4):350-356(焦子龙, 胡松林, 姜利祥. 基于蒙特卡罗射线追踪的航天器空间环境因素暴露通量统一计算方法[J]. 航天器环境工程, 2019, 36(4):350-356)
    [15]
    LIU Tun, ZHAO Zhiping. Method to calculate effective area used in computation of solar radiation torque of satellite[J]. J. Nanjing Univ. Sci. Technol., 2007, 31(6):684-688(刘暾, 赵志萍. 卫星太阳光压力矩计算中有效作用面积的计算[J]. 南京理工大学学报, 2007, 31(6):684-688)
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article Views(668) PDF Downloads(51) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return