PIIS002342060002225-5-1
DOI10.31857/S002342060002225-5
Publication type Article
Status Published
Authors
 
Affiliation: Коллегия военно-промышленной комиссии РФ
Affiliation:
Address: Russian Federation, Saint Petersburg
Affiliation:
Address: Russian Federation, Saint Petersburg
Affiliation:
Address: Kazakhstan
Journal nameKosmicheskie issledovaniia
EditionVolume 56 Issue 5
Pages384-395
Abstract

         

Keywords
Received24.12.2018
Publication date24.12.2018
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1. Veniaminov S.S., Chervonov A.M. Kosmicheskij musor — ugroza chelovechestvu / Pod red. R.R. Nazirova, O.Yu. Aksenova. M.: IKI RAN, 2012.

2. Zade L.A. Ponyatie lingvisticheskoj peremennoj i ego primenenie k prinyatiyu priblizhennykh reshenij. M.: Mir, 1976.

3. Nazarenko A.I. Modelirovanie kosmicheskogo musora. M.: IKI RAN. 2013.

4. Nazarenko A.I. i dr. Kharakteristiki komp'yuternykh programm dlya opredeleniya prostranstvenno-vremennogo raspredeleniya tekhnogennogo veschestva. Prilozhenie A // GOSTR 25645.167-2005. Kosmicheskaya sreda (estestvennaya i iskusstvennaya). Model' prostranstvenno-vremennogo raspredeleniya plotnosti potokov tekhnogennogo veschestva v kosmicheskom prostranstve. M.: Standartin- form. 2005. S. 34–40.

5. Smirnov N.N. Ehvolyutsiya «kosmicheskogo musora» v okolozemnom kosmicheskom prostranstve // Uspekhi mekhaniki. 2002. T.1. № 2. S. 37–104.

6. Chetyrkin E.M. Statisticheskie metody prognozirovaniya. M.: Statistika. 1977.

7. Shestopalova O.L. Avtomatizatsiya kontrolya sostoyaniya slozhnykh tekhnicheskikh sistem na osnove ispol'zovaniya konechno-avtomatnoj modeli i nejrosetevykh struktur. 2012. №2 (57). C. 74–81.

8. Shestopalova O.L., Shestopalov R.P., Darbuzova K.O. Prognozirovanie predel'nogo sroka «ehkologicheskoj zhizni» okolozemnykh orbit v usloviyakh progressiruyuschego razmnozheniya kosmicheskogo musora // Fundamental'nye issledovaniya. 2015. № 11 (chast' 3). S. 529–533.

9. Shestopalova O.L. Prognozirovanie sootvetstviya kharakteristik kosmicheskikh sredstv pred'yavlyaemym trebovaniyam na osnove ispol'zovaniya nechetkoj regressionnoj modeli // Informatsiya i kosmos. 2010. № 1. S. 133-135.

10. Lomakin M.I., Mironov A.N., Shestopalova O.L. Multimodel Processing of Measurement Data in Intelligent Systems for Predicting the Reliability of Spaceborne Equipment // Measurement Techniques. 2014. V. 57. Iss. 1. P. 8–15.

11. Bade A. et al. Breacup Model Update at NASA/JSC // 49th Intern. AstronauticalCongress. 1998. IAA-98-IAA.6.3.02.

12. Eichler P., Reynolds B. Mid- and Long-Term Debris Environment Projection using the EVOLVEand CHAIN Models // 46th Intern. Astronautical Congress. Oct. 2–6. 1995. Oslo. Norway.

13. Flegel S. et. al. MASTER-2009 Model update //29th IADC Meeting. Berlin. 2011.

14. Hoots F.R., Roehrich R.L. Models for Propagation of NORAD Element Sets. Spacetrack Report No. 3, Aerospace Defense Command. United States Air Force. December 1980.

15. Kessler D.J., Cour-Palais B.G. Collision Frequency of Artificial Satellites: The Creation of Debris Belt. // J. Geophysical Research. 1978. V. 83. A6.

16. Liou J.-C. Cube – The LEGEND Collision Probabilities Evaluation Model // Orbital Debris Quarterly News. 2004. V. 8. Iss. 1.

17. Fukushige S., Akahoshi Y., Kitazawa Y., Goka T. Comparison of Debris Environment Models; ORDEM 2000, MASTER 2001 and MASTER 2005. IHI Engineering Review. V. 40. № 1. 2007.

18. Verhulst P.F. Notice sur la loi que la population poursuitdans son accroissement // Correspondance mathématique et physique 10:113-121.

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