A Review on the Acquisition and Analysis Methods of Spectral Characteristics of Space Debris
-
摘要: 空间碎片的反射光谱是碎片表面材料与太阳光谱共同作用的结果,能够反映碎片的材料性质,为空间碎片的光学特性研究提供依据. 将观测获得的空间碎片反射光谱进行预处理后,与已知空间材料样本的光谱进行比对,比较两者间光学特性差异,包括连续反射光谱曲线中的峰值、斜率、形态、特征窄波段、吸收谱线和多波段反射光谱间的成像差异、色指数、特征温度等,分辨碎片表面可能的材料,最终实现对空间碎片光学特性的研究.Abstract: The reflectance spectrum of space debris is the interactive result of the space debris material and the solar spectrum, which can reflect the material nature of space debris and provide the basis for studying the optical properties of space debris. In this paper, we preprocess the observed space debris images, extract debris spectral curves, correct spectral data of atmospheric turbulence and then compare the actually observed reflectance spectra of space debris with the known space material reflectance spectra. The optical properties differences between them, such as peak, slope, shape, narrow band characteristics, absorption lines in the continuous reflectance spectrum curve and imaging differences, color indices, characteristic temperature in multiband can be analyzed. Then the space debris can be distinguished from others by its surface materials finally.
-
Key words:
- Spectroscopy /
- Space debris /
- Spectroscopic observations /
- Spectral characteristics
-
[1] Shoemaker M, Shroyer L. Historical trends in ground-based optical space surveillance system design[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2007 [2] Shell J R. Optimizing orbital debris monitoring with optical telescopes[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2010 [3] Tang Yijun, Jiang Xiaojun, Wei Jianyan, et al. Review of optical observations of high apogee space debris[J]. J. Astron., 2008, 29(4):1094-1098. In Chinese (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) [4] Tang Yijun, Jiang Xiaojun, Wang Jianfeng, et al. Diffuse reflection optical characteristics of three-axis stabilization GEO satellite[J]. Acta Photon. Sin., 2009, 38:2863-2866. In Chinese (唐轶峻, 姜晓军, 王建峰, 等. 三轴稳定GEO卫星漫反射光变 特性[J]. 光子学报, 2009, 38:2863-2866) [5] Jorgensen K M. Using Reflectance Spectroscopy to Determine Material Type of Orbital Debris[D]. Boulder: University of Colorado, 2000 [6] Jorgensen K, Okaba J, Bradford L, et al. Obtaining material type of orbiting objects through reflectance spectroscopy measurements[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2003:56-62 [7] Jorgensen K, Africano J, Hamada K, et al. Physical properties of orbital debris from spectroscopic observations[J]. Adv. Space Res., 2004, 34(5):1021-1025 [8] Abercromby K, Abell P, Barker E. Reflectance spectra comparison of orbital debris, intact spacecraft, and intact rocket bodies in the GEO regime[C]//5th European Conference on Space Debris. Darmstadt: European Space Operations Centre, 2009 [9] Chaudhary A, Birkemeier C, Gregory S, et al. Unmixing the Materials and Mechanics Contributions in Non-resolved Object Signatures[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2008 [10] Jorgensen K, Africano J, Stansbery G, et al. Determining the material type of man-made orbiting objects using low resolution reflectance spectroscopy[C]//International Symposium on Optical Science and Technology. San Diego: International Society for Optics and Photonics, 2001:237-244 [11] Bedard D. Using a physics-based reflection model to study the reddening effect observed in spectrometric measurements of artificial space objects[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2011 [12] Hejduk M. Specular and diffuse components in spherical satellite photometric modeling[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2011 [13] Hardorp J. The sun among the stars. I-A search for solar spectral analogs[J]. Astron. Astrophys., 1978, 63:383-390 [14] Hardorp J. The sun among the stars. Ⅲ——-Energy distributions of 16 northern G-type stars and the solar flux calibration[J]. Astron. Astrophys., 1980, 91:221-232 [15] Schildknecht T, Vananti A, Krag H, et al. Reflectance spectra of space debris in GEO[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2009:220-227 [16] Guyote M, Abercromby K J, Okada J. Using space weathering models to match observed spectra to predicted spectra[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2006 [17] Jorgensen K, Okada J, Guyote M. Reflectance spectra of human-made objects[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2004:101-107 [18] Scott R, Wallace B. Satellite characterization using small aperture instruments at DRDC Ottawa[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2008:337-347 [19] Scott R, Ellery A, Levesque M. Non-resolved detection of objects performing on orbit servicing in geostationary orbit[C]//Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2011 [20] Westin S H, Li H, Torrance K E. A comparison of four BRDF models[C]//Proceedings of the Eurographics Symposium on Rendering. Norköping, Sweden: European Association of Computer Graphics, 2004:1-10 [21] Lucht W, Schaaf C B, Strahler A H. An algorithm for the retrieval of albedo from space using semiempirical BRDF models[J]. Geosci. Remote Sens., 2000, 38(2):977-998 [22] Jorgensen Abercromby K, Guyote M, Okada J. Inertial upper stage surface property study[C]//4th European Conference on Space Debris. Boulder: European Space Operations Centre, 2005: 587-633 [23] Kervin P W, Africano J L, Sydney P F, et al. Small satellite characterization technologies applied to orbital debris[J]. Adv. Space Res., 2005, 35(7):1214-1225 [24] Africano J L, Stansbery E G, Kervin P W. The optical orbital debris measurement program at NASA and AMOS[J]. Adv. Space Res., 2004, 34(5):892-900 [25] Abercromby K, Okada J, Guyote M, et al. Comparisons of ground truth and remote spectral measurements of the FORMOSAT and ANDE spacecraft[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2006. 728 [26] Monin D, Scott R L. Spectrometric characterization of geostationary satellites[J]. Lincoln Lab. J., 2007, 16(2):297 [27] Harms A, Hamada K, Wetterer C J, et al. Understanding Satellite Characterization Knowledge Gained from Radiometric Data[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2011 [28] Seitzer P, Cowardin H M, Barker E, et al. Photometric studies of orbital debris at GEO[J]. Bull. Am. Astron. Soc., 2010, 42:455 [29] Seitzer P, Cowardin H M, Barker E, et al. Photometric studies of GEO debris[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2009:112-123 [30] Abercromby K J, Hamada K, Guyote M, et al. Remote and ground truth spectral measurement comparisons of FORMOSAT Ⅲ[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2007:137-145 [31] Dao P D, McNicholl P J, Brown J H, et al. Space object characterization with 16-visible-band measurements at magdalena ridge observatory[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2008 [32] Alcala C M, Brown J H. Space object characterization using time-frequency analysis of multi-spectral measurements from the Magdalena Ridge Observatory[C]// Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2009 [33] Schildknecht T, Musci R, Früh C, et al. Color photometry and light curve observations of space debris in GEO[C]//2008 International Astronautical Congress. Glasgow, Scotland: International Astronautical Congress, 2008 [34] Skinner M A, Payne T E, Russell R W, et al. IR spectrophotometric observations of geosynchronous satellites[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2007 [35] Payne T, Gregory S, Tombasco J, et al. Satellite monitoring, change detection, and characterization using non-resolved electro-optical data from a small aperture telescope[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2007 [36] Seitzer P, Cowardin H M, Barker E, et al. Photometric studies of GEO debris[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2009 [37] Cowardin H, Seitzer P, Abercromby K, et al. Characterization of orbital debris photometric properties derived from laboratory-based measurements[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2010 [38] Paxson C, Snell H E, Griffin J M, et al. Space object temperature determination from multi-band infrared measurements[C]//Proceedings of the Advanced Maui Optical and Space Surveillance Technologies Conference. Maui, HawaⅡ: the Maui Economic Development Board, 2008 [39] Schildknecht T, Musci R, Flury W, et al. Optical observations of space debris in high-altitude orbits[C]//4th European Conference on Space Debris. Noordwijk, the Netherlands: European Space Operations Centre, 2005:113-118 [40] Jorgensen K, Africano J L, Stansbery E G, et al. Determining the material type of man-made orbiting objects using low-resolution reflectance spectroscopy[C]//International Symposium on Optical Science and Technology. San Diego: International Society for Optics and Photonics, 2001:237-244 [41] Abercromby K, Abell P, Barker E. Reflectance spectra comparison of orbital debris, intact spacecraft, and intact rocket bodies in the GEO regime[C]//5th European Conference on Space Debris. Darmstadt, Germany: European Space Agency, 2009 -
-
计量
- 文章访问数: 1826
- HTML全文浏览量: 210
- PDF下载量: 2338
-
被引次数:
0(来源:Crossref)
0(来源:其他)
下载:
