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匹配滤波方法在非相干散射雷达测量空间碎片中的应用 被引量:6

Match Function Method for Space Debris Detection Using Incoherent Scatter Radar
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摘要 利用2010年3月25日欧洲非相干散射雷达的常规电离层探测数据,分析了实测数据中接收功率突变的现象.高度发生在500 km以上的功率突变一般不是由于地球物理影响产生的,而要归因于卫星或空间碎片.采用匹配滤波方法实现了对空间碎片的探测和提取,利用相干积累的方法提高了信噪比,共获得363个碎片,得到了碎片随高度和时间的分布.结果表明,碎片高度分布主要集中在800 km左右,与欧洲非相干散射组织现有的碎片数据具有一致性. Beam-park experiments done by powerful and highly sensitive radar allow us to gain insight into the debris population. But any cost-effective approach demands a multi-use concept where the system can be reconfigured easily to perform a variety of different tasks. In this paper we present a flexible digital signal process method for space debris measurements using the conventional ionospheric data. Based on the conventional ionospheric data obtained by European incoherent scatter radar on 25 March 2010, the "mutation" phenomenon of the sounding data power was studied. Generally, the "mutation" power in more than 500 km is not produced by geophysical effects, but due to satellites or space debris. Matched filtering method was used to achieve the space debris detection and the debris's character extraction, and the signal to noise ratio is improved by using coherent accumulation method. A total of 363 pieces were captured, and the distribution of debris with height and time has been obtained. the height of 800 km, and the distribution European Incoherent Scatter organizations The result shows that the debris was concentrated in of debris with height was consistent with the results ofEuropean Incoherent Scatter organizations.
作者 刘拥军 葛德彪 金旺
机构地区 西安电子科技大学理学院 中国电波传播研究所北京研究中心
出处 《空间科学学报》 CAS CSCD 北大核心 2012年第1期60-67,共8页 Chinese Journal of Space Science
关键词 非相干散射雷达 空间碎片 匹配函数 相干积分 Incoherent scatter radar, Space debris, Match function, Coherent integration
分类号 V528 [航空宇航科学与技术—人机与环境工程]
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参考文献13

  • 1Anselmo L, Cordelli A, Pardini C, et al. Space Debris- mitigation Extension of the SDM Tool [R]. ISA Technical Report On Space Debris, 2000.
  • 2Anselmo L, Pardini C. The effects of spacecraft and up-per stage breakups on the geostationary ring [J]. J. Astron. Sei., 2000, 48(1):1-23.
  • 3Bernhard R P, Christiansen E L, Kerr J H. Space shuttle meteoroid and orbital debris impact damage [J]. Int. J. Impact Eng., 2001, 26:33-38.
  • 4Woodman R F, Hagfors T. Methods for the measurement of vertical ionospheric motions near the magnetic equator by incoherent scattering [J]. d. Geophys. Res., 1969, 74:1205-1212.
  • 5Gray R W, Farley D T. Theory of incoherent scatter mea- surements using compressed pulse [J]. Radio Sci., 1973, 8:123-131.
  • 6Farley D T. Multipule-pulse incoherent scatter correlation function measurements [J]. Radio Sci., 1972, 7:661-666.
  • 7Farley D T. Incoherent scatter correlation function measurements [J]. Radio Sci., 1969, 4:935-953.
  • 8Rino C L, Baron M J, Burch G H, et al. A multipulse correlator design for incoherent scatter radar [J]. Radio Sci., 1974, 9:1117-1127.
  • 9Woodman R F. A general statistical instrument theory of atmospheric and ionospheric radars [J]. J. Geophys. Res., 1991, 96:7911-7928.
  • 10Lehtinen M S, et al. A genetal incoherent scatter analysis and GUISDAP [J]. J. Atmos. Solar-Terr. Phys., 1996, 58(1-4):435-452.

同被引文献18

  • 1王福海,冯顺山,刘有英.空间碎片导论[M].北京:科学出版社,2010.
  • 2丁宗华,黄昌理,徐彬,等.我国曲靖非相干散射雷达及其初步观测结果[C]//第八届空间天气学研讨会论文摘要集.济南:山东大学,2012:101-101.
  • 3Sato T,Ikeda K,Kimura I,et al.Shape of space debris estimated from radar cross section variation[J].Journal of Spacecraft and Rocket,1994,31(4):665-670.
  • 4Markkanen J,Lehtinen M,Huuskonen A,et al.Measurements of small-size debris with backscatter of radio waves[R].Kiruna:EISCAT the European Incoherent Scatter Scientific Association,2002.
  • 5Markkanen J,Lenhtinen M.Real time space debris monitoring with EISCAT[J].Advances in Space Research,2005,35:1197-1209.
  • 6Markkanen J,Postila M.Real-time small-size debris detection with EISCAT radar facilities[R].Kiruna:EISCAT the European Incoherent Scatter Scientific Association,2005.
  • 7Markkanen J,Postila M,Van Eyken.Small-size space debris data collection with EISCAT radar facilities[R].Kiruna:EISCAT the European Incoherent Scatter Scientific Association,2006.
  • 8Markkanen J.EISCAT space debris measurements in 2006[R].Kiruna:EISCAT the European Incoherent Scatter Scientific Association,2006.
  • 9杨朋翠,施浒立,李圣明.空间碎片地基雷达探测综述[J].天文研究与技术,2007,4(4):320-326. 被引量:6
  • 10J. Markkanen,M. Lehtinen,M. Landgraf.Real-time space debris monitoring with EISCAT[J].Advances in Space Research.2005(7)

引证文献6

二级引证文献18

空间科学学报
2012年 第1期

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