Научная электронная библиотека ULRICH'S Periodicals Directory

Сибирский государственный университет
науки и технологий имени академика М.Ф. Решетнева

Сибирский аэрокосмический журнал
ISSN 2712-8970 (Print) ISSN 2782-5760 (on-line)

Сведения об образовательной организации

UDK 629.783
“SIBCUBE” – CUBESAT SATELLITE PROJECT OF SIBSAU STUDENT
D. M. Zuev, A. G. Pyatkov, P. V. Movchan, D. V. Smirnov, A. S. Kostyukov
Siberian State Aerospace University named after academician M. F. Reshetnev 31, Krasnoyarsky Rabochy Av., Krasnoyarsk, 660014, Russian Federation E-mail: ZuevDmitriy93@yandex.ru
This paper describes a students project of nano-satellite "SibCube". The paper defines the goals (there is description of educational and science goals) and tasks of the students’ project "SibCube". There is also an analysis of the physical conditions and technical problems related to weight and size limitations of CubeSAT satellites. This paper also includes identification key problems of CubeSAT satellites research activity and ways to solve these key problems. It should be noted that there is such a research activity as a new element basis testing and new space technology testing. In particular, a board system of control that is executed on the "system on chip" technology and equipment that support the telecommunication standard SpaceWire are the current goal of testing for "SibCube" student project. A testing of application of the new element basis and the new space technology is topical as a result of a conservatism of the space industry. What is more, it might be noted that there is a limitation of the home produced element basis in the Russian Federation. Nowadays, it is popular to speak about an import substitution. The necessity of having the own element basis is clear for such large field of the Russian Federation as the satellite construction and the space industry on the whole. However, testing of this basis is required for using this element basis because spacecraft developers prefer to use an element basis with a high reliability that have already been tested in a space conditions. What is more, the concept of modular and scalable performance spacecraft platform as well as techniques to achieve modularity and scalability of an architecture for CubеSAT construction and board system of control at a construction and systems engineering levels are included in this paper.
nano-satellite, СubeSAT, scalable modular architecture, the physical conditions, System-on-Chip, SpaceWire, orientation system.
References
  1. Atanov S. K. [Designing multisatellite groupings based on nano-satellites]. Jevrazijskij natsional'nyj universitet im. L. N. Gumileva. 2012, no. 6. (In Russ.). Available at: http://repository.enu.kz/handle/123456789/ 1020 (accessed 10.10.2014).
  2. Ovchinnikov M. Ju. “Malyshi” zavoevyvajut mir. [“Babbies” are gaining the world]. Institut prikladnoj matematiki im. M. V. Keldysheva. (In Russ.) Available at: http://www.keldysh.ru/events/ovch.pdf. (accessed 11.10.2014).
  3. Hramov D. A. [Miniature satellites of “CubeSat” standard]. Kosmіchna nauka і tehnologіja. 2009, vol. 15, no. 3, p. 20–31 (In Russ.).
  4. Standard “CubeSat”. [CubeSat Design Specification]. California, USA, ver.13, 20.02.2014. Available at: http://2.cubesat.org/images/developers/cds_ rev13_final.pdf (accessed 11.10.2014).
  5. Chin A., Coelho R., Brook L., Nugent R., Dr. Jordi Puig Suari. Standardization Promotes Flexibility: A Review of CubeSats’ Success. Available at: http://2. cubesat.org/images/More_Papers/flexibility.pdf (accessed 14.10.2014).
  6. CubeSat concept – deployer standards for an enlarged CubeSat family. Available at: https://directory. eoportal.org/web/eoportal/ satellite-missions/c-missions/ cubesat-deployer (accessed 14.10.2014).
  7. Gunter’s Space Page. CubeSat. Available at: http://space.skyrocket.de/doc_sat/cubesat.htm (accessed 11.10.2014).
  8. Swartwout‎ M. CubeSat Database. Available at: https://sites.google.com/a/slu.edu/swartwout/home/cubesat-database (accessed 12.10.2014).
  9. Sincha O. Ju. [Features of space production industry]. Standart. 2011, no. 8(103), p. 28–32 (In Russ.).
  10. Shejnin Ju., Solohina T., Petrichkovich Ja. [SpaceWire technology for parallel system and distributed board systems]. Elektronika: nauka, tekhnologiya, biznes. 2006, no. 5, p. 64–75 (In Russ.).
  11. Hanov V. H. [Network technology for board systems of spececrafts: designing experience]. TUSUR, 2014, no. 2(32), p. 287–293 (In Russ.).
  12. Vologdin Je. N., Lysenko A. P. Radiatsionnye jeffekty v integral'nykh mikroskhemakh i metody ispytanij izdelij poluprovodnikovoj jelektroniki na radiatsionnuju stojkost'. [Radiation effects in integrated circuits and methods of testing semiconductor electronics products to radiation resistance]. Moscow, Centr Interacija Publ., 2002, 46 p.
  13. Judincekv V. [Radiation persistent of integrated circuits. Reliability in space and on the earth]. Elektronika: nauka, tekhnologiya, biznes. 2007, no. 5, p. 72–77 (In Russ.).
  14. Bezrodnyh I. P., Morozova E. I., Petrukovich A. A., Kazancev S. G., Kochetov I. V., Semjonov V. T. [Radiation conditions on an earth orbit]. “Ionosfera”. Voprosy elektromekhaniki : tr. VNIIEM. 2011, no. 4(123), p. 19–28 (In Russ.).
  15. Hanov V. H., Shahmatov A. V., Chekmarjov S. A. [Network board systems to control of small spacecrafts]. SFU “Sovremennye problemy radioelektroniki”. 2014, p. 253–256 (In Russ.).
  16. Bumagin A., Gulin Ju. [Specialized ASIC for space applications: problems of development and application]. Elektronika: nauka, tekhnologiya, biznes. 2010, no. 1, p. 50–56 (In Russ.).
  17. Bliskavitskii A. A., Kabaev S. V. [Operation system of real time (reveiw)]. Mir komp'yuternoi avtomatizatsii: vstraivaemye komp'yuternye sistemy (In Russ.) Available at: http://www.mka.ru/?p=40774. (accessed 13.10.2014).
  18. Popov V. I. Sistemy orientatsii i stabilizatsii kosmicheskikh apparatov. [Orientation and stabilisation systems for spacecrafts]. Moscow, Mashinostroenie Publ., 1986, 184 p.

Zuev Dmitrij Mihajlovich – student of Siberian State Aerospace University named after academician M. F. Reshetnev. E-mail: ZuevDmitriy93@yandex.ru

Piatkov Anton Gennadevich – postgraduate student, Siberian State Aerospace University named after academician M. F. Reshetnev. E-mail: AnthonyWolfhound@gmail.com

Movchan Pavel Valerevich – student of Siberian State Aerospace University named after academician
M. F. Reshetnev. E-mail: movchan.pv@gmail.com

Smirnov Danil Vadimovich – student of Siberian State Aerospace University named after academician
M. F. Reshetnev. E-mail: denilonedanilsm@gmail.com

Kostjukov Artem Stanislavovich – student of Siberian State Aerospace University named after academician
M. F. Reshetnev. E-mail: kostukovart@gmail.com