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Volume 41 Issue 6
Jun.  2015
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Journal of Beijing University of Aeronautics and Astronautics  > 2015  >  41(6): 995-999.
HUANG Chen, WANG Jianjun, XUE Li, et al. New control technology for visible light reflection characteristics of space target[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(6): 995-999. doi: 10.13700/j.bh.1001-5965.2014.0422(in Chinese)
Citation: HUANG Chen, WANG Jianjun, XUE Li, et al. New control technology for visible light reflection characteristics of space target[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(6): 995-999. doi: 10.13700/j.bh.1001-5965.2014.0422(in Chinese)
shu

New control technology for visible light reflection characteristics of space target

doi: 10.13700/j.bh.1001-5965.2014.0422
  • 1.

    Beijing Institute of Tracking and Telecommunications Technology, Beijing 100094, China

  • 2. Xi'an Satellite Control Center, Xi'an 710049, China

  • Received Date: 16 Jul 2014
  • Publish Date: 20 Jun 2015
    Abstract
  • For geosynchronous (GEO) orbit space object's detection and recognition is mainly dependent on analysis, identification and judgment of reflected sunlight photometric curve. Based on analysis of visible light reflection characteristics calculation model of space target surface diffuse reflection properties, a study on different shape reflector light reflection characteristics was carried out. Moreover, a different shape reflector method was proposed to control space target light reflection characteristics. Taking an example of a GEO satellite, simulate and analyze the effects of cone, sphere and cylinder as reflection control body on satellite reflection characteristics by using Monte Carlo non-sequential light tracing method. The results show that the method can change the satellite original visible light reflection curve, reduce the probability of being detected and recognized, and improve the invisibility of space object.

     

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    • References(15)
  • [1]
    Oswald M, Krag H, Wegener P, et al.Concepts for an orbital telescope observing the debris environment in GEO[J].Advances in Space Research, 2004, 34(5):1155-1159.
    [2]
    Matney M J, Stansbery E, Africano J, et al.Extracting GEO orbit populations from optical surveys[J].Advances in Space Research, 2004, 34(5):1160-1165.
    [3]
    Isobe S, Asami A, Asher D, et al.A new 1M telescope for space debris survey observations[J].Advances in Space Research, 2004, 34(5):917-920.
    [4]
    Seitzer P, Smith R, Africano J, et al.MODEST observations of space debris at geosynchronous orbit[J].Advances in Space Research, 2004, 34(5):1139-1142.
    [5]
    Schildknecht T, Musci R, Ploner M, et al.Optical observations of space debris in GEO and in high-eccentric orbits[J].Advances in Space Research, 2004, 34(5):901-911.
    [6]
    Rudenko S P, Tarady V K, Sergeev A V, et al.Determination of orbit of geosynchronous space debris Kupon satellite using its CCD observations at 2-meter telescope at Terskol peak[C]//Dynamics of Natural and Artificial Celestial Bodies.Berlin:Springer, 2001, 8:373-374.
    [7]
    唐轶峻, 姜晓军, 魏建彦, 等.高轨空间碎片光电观测技术综述[J].宇航学报, 2008, 29(4):1094-1098. Tang Y J, Jiang X J, Wei J Y, et al.Review of optical observations of high apogee space debris[J].Journal of Astronautics, 2008, 29(4):1095-1097(in Chinese).
    [8]
    陈荣利, 韩乐, 车驰骋, 等.非自发光空间目标的可见光探测技术研究[J].光子学报, 2005, 34(9):1438-1440. Chen R L, Han L, Che C C, et al.Research on un-illuminant space target visual detection technique[J].Acta Photonica Sinica, 2005, 34(9):1438-1440(in Chinese).
    [9]
    刘云猛, 柴金广, 王旭辉, 等.空间目标可见光特性与探测距离估算[J].红外技术, 2009, 31(1):23-26. Liu Y M, Chai J G, Wang X H, et al.Visible characteristics and calculation of detecting distance for space target[J].Infrared Technology, 2009, 31(1):23-26(in Chinese).
    [10]
    Sridharan R, Burnham B, et al.Performance improvements of the SBV[C]//Proceedings of the Space Control Conference.Lexington, Massachusetts:Massachusetts Institute of Technology Lincoln Laboratory, 1998:71-80.
    [11]
    Africano J L, Stansbery E G, Kervin P W.The optical orbital debris measurement program at NASA and AMOS[J].Advances in Space Research, 2004, 34(5):892-900.
    [12]
    Stokes G H, von Braun C, Sridharan R, et, al.The space-based visible program[J].Lincoln Laboratory Journal, 1998, 11(2):205-238.
    [13]
    庄诚.基于太阳赤纬角的地球同步轨道(GEO)空间碎片光度测量标定方法的研究[D].杭州:浙江工业大学, 2011. Zhuang C.The research of photometric calibration of geosynchronous orbit (GEO) space debris under solar declination[D].Hangzhou:Zhejiang University of Technology, 2011(in Chinese).
    [14]
    Nayar S K, Ikeuchi K, Kanade T.Determining shape and reflectance of hybrid surfaces by photometric sampling[J].Robotics and Automation, IEEE Transactions on, 1990, 6(4):418-431.
    [15]
    李斌成.空间目标的光学特性分析[J].光电工程, 1989(2): 21-26. Li B C.Optical characteristic analysis of space target[J].Opto-Electronic Engineering, 1989(2):21-26(in Chinese).
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