Reducing the influence of interference of spacecraft magnetic field on magnetic measurements


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Abstract

The article presents constructive ways of reducing the influence of magnetic interference from spacecraft, due to its own magnetic fields, on the on-board magnetic measurements, as well as reducing the resulting magnetic moments. Well-known methods of removing magnetometer sensors from the locations of the most powerful sources of magnetic fields of a spacecraft, in particular, using extendable booms, are considered. In addition, methods for reducing the influence of  spacecraft self- magnetic fields on the onboard magnetometric navigation support systems using known closed and proposed hemispherical ferromagnetic shields are considered

About the authors

A. M. Beznyakov

Mozhaisky Military Space Academy

Author for correspondence.
Email: bez-al@mail.ru

Candidate of Science (Engineering)
Lecturer at the Department of On-Board Electrical Equipment and Power Systems of Aircraft

Russian Federation

I. S. Guriev

Mozhaisky Military Space Academy

Email: vka@mil.ru

Doctor of Science (Engineering)
Senior Researcher of the Department of the Military Institute (Scientific Research)

Russian Federation

I. P. Ryzhova

Mozhaisky Military Space Academy

Email: vka@mil.ru

Researcher of the Department of theMilitary Institute (Scientific Research)

Russian Federation

References

  1. Golyakov A.D., Lukashevskiy A.A., Smirnov V.V. Sistemy navigatsii kosmicheskikh apparatov [Spacecraft navigation systems]. SPb: MO RF Publ., 2003. 267 p.
  2. Bessekerskiy V.A., Ivanov, V.A., Smirnov V.V. Orbital'noe giroskopirovanie [Orbital gyroscopy]. SPb: Politekhnika Publ., 1993. 251 p.
  3. Fominov I.V. Generalized structure of adaptive information and measuring complex of mobile object. Journal of Instrument Engineering. 2013. V. 56, no. 7. P. 5-9. (In Russ.)
  4. Arbatov A.G., Vasil'ev A.A., Velikhov Е.P., Vereshchetin V.S., Gerasev M.I., Kokoshin A.A., Konovalov A.A., Kulik S.A. Kosmicheskoe oruzhie: dilemma bezopasnosti [Space weapons: security dilemma]. Moscow: Mir Publ., 1986. 182 p.
  5. Gur'ev I.S. Adaptivnye magnitometricheskie sistemy kontrolya prostranstvennogo polozheniya [Adaptive magnetometric spatial attitude control systems]. Leningrad: Energoatomizdat Publ., 1985. 96 p.
  6. Milikhin B.Z., Seleznev V.P., Seleznev A.V. Geomagnitnaya navigatsiya [Geomagnetic navigation]. Moscow: Mashinostroenie Publ., 1976. 279 p.
  7. Potekhin S.G., Vlasenkov E.V., Kombaev T.S., Pavlova A.N. Task solution of microsatellite navigation and attitude by data about the earth's magnetic field with Kalman filter use. Mechanics, Control and Informatics. 2013. No. 1 (13). P. 160-168. (In Russ.)
  8. Caruso M.J. Applications of magnetoresistive sensors in navigation systems. SAE Technical Papers. 1997. doi: 10.4271/970602
  9. Magnitometr tsifrovoy trekhosnyy MTST-4. Tekhnicheskie kharakteristiki. Katalog produktsii elektronnogo napravleniya OAO «Ramenskoe Priborostroitel'noe Byuro». 2013. P. 97. Available at:http://mniirip.ru/sites/default/files/articles/katalog_elektronnogo_napravleniya_rpkb.pdf
  10. Jugaj K.N., Murav'ev A.B., Jugaj K.K., Skutin A.A., Sychev S.A., Seropjan G.M., Kanev E.A. SKVID-magnitometr na vysokotemperaturnykh plenkakh [SQUID-magnetometer built around high-temperature films]. Patent RF, no. 2184407, 2002. (Publ. 27.06.2002)
  11. Katalog tovarov OOO «Magnitnye pribory» [Catalogue of goods of “Magnetic instruments” LLC]. Available at:http://www.magnetic.spb.ru
  12. Smart digital magnetometer HMR 2300. Available at:https://aerospace.honeywell.com/en/~/media/aerospace/files/datasheet/smartdigitalmagnetometerhmr2300_ds.pdf
  13. Volotsuev V.V., Tkachenko I.S. Vvedenie v proektirovanie kosmicheskikh apparatov [Introduction to spacecraft design: study guide]. Samara: Samara University Publ., 2018. 144 p.
  14. Rozov V.Yu., Hetman A.V., Petrov S., Erisov A., Melanchenko A.G., Khoroshilov V.S., Schmidt I.R. Magnetism of spacecraft. Tekhnichna elektrodynamika. Tematychnyi vypusk «Problemy suchasnoi elektrotekhniky». 2010. Part 2. P. 144-147. (In Russ.)
  15. Katalog izmerennykh i vychislennykh znacheniy modulya napryazhennosti geomagnitnogo polya vdol' orbity sputnika «Kosmos-321» [Catalogue of measured and calculated values of the magnitude of geomagnetic field intensity along the orbit of Kosmos-321 satellite]. Moscow: Nauka Publ., 1976. 179 p.
  16. Afanas'ev Yu.V., Studentsov N.V., Shchelkin A.P. Magnitometricheskie preobrazovateli, pribory, ustanovki [Magnetometric transducers, devices, installations]. Leningrad: Energiya Publ., 1972. 272 p.
  17. Gur'ev I.S., Dodotchenko V.V. Ustroystvo dlya ekranirovaniya magnitometrov ot magnitnykh poley kosmicheskogo apparata i drugikh ob"ektov [Facility shielding magnetometers from magnetic fields of spacecraft and other objects]. Patent RF, no. 2204152, 2003. (Publ. 10.05.2003)

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