[1] Donath T, Schildknecht T, Brousse P et al. Proposal for a European space surveillance system. [C]∥4th European Conference on Space Debris, April 18-20, 2005, Darmstadt, Germany. Paris: European Space Agency, 31-38(2005).

[2] Donath T, Schildknecht T, Martinot V et al. Possible European systems for space situational awareness[J]. Acta Astronautica, 66, 1378-1387(2010).

[3] Flohrer T, Schildknecht T, Musci R et al. Performance estimation for GEO space surveillance[J]. Advances in Space Research, 35, 1226-1235(2005).

[4] Flohrer T, Schildknecht T, Musci R. Proposed strategies for optical observations in a future European space surveillance network[J]. Advances in Space Research, 41, 1010-1021(2008).

[5] Schildknecht T, Flohrer T, Musci R. Optical observations in a proposed european space surveillance network. [C]∥Proceedings of the 6th US Russian Space Surveillance Workshop, August 22-26, 2005, Petersburg, Russia. [S.l.: s.n.]:(2005).

[6] Olmedo E, Nomen J, Sánchez-Ortiz N et al. -01-31)[2020-02-27]. https: ∥www. researchgate. net/publication/288659391_Cataloguing_capability_of_objects_in_the_geo_ring.(2019).

[7] Olmedo E, Sánchez-Ortiz N, Guijarro N et al. Survey-only optical strategies for cataloguing space debris objects in the future European space surveillance system[J]. Advances in Space Research, 48, 535-556(2011).

[8] Carolin F, Schildknecht T, Hinze A et al. Optical observation campaign in the framework of the ESA space surveillance system precursor services. [C]∥Proceedings of the European Space Surveillance Conference, June 7-9, 2011, Madrid, Spain. [S. l.: s. n.](2011).

[9] Vananti A, Schildknecht T, Keinänen P et al. Preliminary telescope design analysis for the optical space surveillance subsystem. [C]∥61st International Astronautical Congress 2010, September 27-October 1, 2010, Prague, Czech Republic. Paris: IAF, 10475-10485(2010).

[10] Musci R, Schildknecht T, Beutler G et al. Observations of high altitude objects from multiple sites. [C]∥57th International Astronautical Congress, October 2-6, 2006, Valencia, Spain. Reston: AIAA(2006).

[11] Utzmann J, Wagner A, Blanchet G et al. Architectural design for a European SST system. [C]∥6th European Conference on Space Debris, April 22-25, 2013, Darmstadt, Germany. Paris: European Space Agency(2013).

[12] Mokhnatkin A, Molotov I. Tijerina E G P, et al. Implementing of the ISON project in Northern Mexico[J]. Open Astronomy, 27, 167-174(2018).

[13] Hinze A, Fiedler H, Schildknecht T. Requirements for observation scenarios to maintain a catalogue of space debris objects in geosynchronous region. [C]∥Proceedings of 7th European Conference on Space Debris, April 18-21, 2017, Darmstadt, Germany. Paris: European Space Agency(2017).

[14] Cordelli E, Vananti A, Schildknecht T. Covariance study to evaluate the influence of optical follow-up strategies on estimated orbital parameters[J]. Acta Astronautica, 122, 76-89(2016).

[15] Silha J, Schildknecht T, Hinze A et al. An optical survey for space debris on highly eccentric and inclined MEO orbits[J]. Advances in Space Research, 59, 181-192(2017).

[16] Butkus A, Roe K, Mitchell B et al. Space surveillance network and analysis model (SSNAM) performance improvements. [C]∥2007 DoD High Performance Computing Modernization Program Users Group Conference, June 18-21, 2007, Pittsburgh, PA, USA. New York: IEEE, 469-473(2007).

[17] Jarvis K S, Africano J L, Sydney P F et al. Observations of the geosynchronous Earth orbital debris environment using NASA's CCD Debris Telescope. [C]∥Proceedings of the Third European Conference on Space Debris, March 19-21, 2001, Darmstadt, Germany. Paris: European Space Agency, 95-99(2001).

[18] Mulrooney M, Hickson P, Stansbery E et al. Orbital debris detection and tracking strategies for the NASA/AFRL meter class autonomous telescope(MCATA). [C]∥61st International Astronautical Congress, September 27-October 1, 2010, Prague, Czech Republic. Washington, DC: NASA(2010).

[19] Vananti A, Schildknecht T, Pinna G M et al. Assessment of possible observation strategy in LEO regime. [C]∥Proceedings of 64th International Astronautical Congress, September 23-27, 2013, Beijing, China. Paris: IAF, 2363-2372(2013).

[20] Yanagisawa T, Kurosaki H, Oda H et al. Ground-based optical observation system for LEO objects[J]. Advances in Space Research, 56, 414-420(2015).

[21] Zhang J H, Fan R Y, Zhao N et al. Electro-optic system detection ability to space-object in strong background[J]. Infrared and Laser Engineering, 43, 212-216(2014).

[22] Tan B T, Chen H B, Wang Q S et al. Evaluation on detecting ability of electro-optical systems to space targets[J]. High Power Laser and Particle Beams, 26, 011013(2014).

[23] Hu J J, Liu J, Cui S X et al. Evaluation model of detected ability for ground-based electro-optic telescope to space debris[J]. Acta Photonica Sinica, 45, 1012002(2016).

[24] Hu J J, Liu J, Cui S X et al. Analysis of the detection ability for the GEO region of the ground-based electro-optic telescope[J]. Astronomical Research & Technology, 14, 39-44(2017).

[25] Yang B, Li Y C, Zhang T H. Application of camera array in initial orbit determination of space targets[J]. Acta Optica Sinica, 39, 0204002(2019).