Москва, г. Москва и Московская область, Россия
УДК 550.3 Геофизика
УДК 55 Геология. Геологические и геофизические науки
УДК 550.34 Сейсмология
УДК 550.383 Главное магнитное поле Земли
ГРНТИ 37.01 Общие вопросы геофизики
ГРНТИ 37.15 Геомагнетизм и высокие слои атмосферы
ГРНТИ 37.25 Океанология
ГРНТИ 37.31 Физика Земли
ГРНТИ 38.01 Общие вопросы геологии
ГРНТИ 36.00 ГЕОДЕЗИЯ. КАРТОГРАФИЯ
ГРНТИ 37.00 ГЕОФИЗИКА
ГРНТИ 38.00 ГЕОЛОГИЯ
ГРНТИ 39.00 ГЕОГРАФИЯ
ГРНТИ 52.00 ГОРНОЕ ДЕЛО
ОКСО 05.00.00 Науки о Земле
ББК 26 Науки о Земле
ТБК 63 Науки о Земле. Экология
BISAC SCI SCIENCE
During the period of maximum solar activity, extreme space weather events increasingly affect technical means and systems. The article considers the ground-based heliogeophysical observation platform, as well as on-board heliogeophysical hardware complexes (GGAK), which conduct operational monitoring of space weather from space crafts.
ionospheric, magnetic, heliogeophysical observations, space weather, instruments, metrology
1. Avdyushin S. I., Vazhenin A. A., Ginzburg E. A., et al. Measurements of fluxes of ionizing radiation characteristics in near-space on hydro-meteorological satellite ”Meteor-3M” // Spetsial’naya Tekhnika. — 2014. — No. 2. — P. 45–54. — (In Russian).
2. Bragina A. A., Arutyunyan D. A., Minligareev V. T. Review of heliogeophysical space system with magnetometric equipment // Heliogeophysical research. — 2022. — No. 34. — P. 40–48. — DOI:https://doi.org/10.5425/2304-7380_2022_34_40. — (In Russian).
3. Bragina A. A., Minligareev V. T., Bogodyazh S. D. Prospects for the Development of Heliogeophysical Satellite Observations on Small Satellites // Cosmic Research. — 2025. — Vol. 63, no. 1. — P. 94–102. — DOI:https://doi.org/10.1134/S0010952524601488.
4. Bragina A. A., Minligareev V. T., Bogodyazh S. D. Prospects for the development of small spacecraft constellations for space weather monitoring // Eleventh International Scientific and Technical Conference “Current Problems of Creating Space Systems for Remote Sensing of the Earth”. — Moscow : VNIIEM Corporation, 2023. — P. 38–39. — (In Russian).
5. Mayorova V., Minligareev V., Akhmedshin R., et al. Flight Experience in Space Weather Monitoring Using CubeSats // 31st IAA Symposium on Small Satellite Missions. — International Astronautical Federation (IAF), 2024a. — P. 174–179. — DOI:https://doi.org/10.52202/078365-0020.
6. Mayorova V., Minligareev V., Akhmedshin R., et al. Flight Experience in Space Weather Monitoring Using CubeSats // 31st IAA Symposium on Small Satellite Missions. — International Astronautical Federation (IAF), 2024b. — P. 174–179.
7. Melnikova V., Mayorova V., Tenenbaum S., et al. Experience in the Development and Operation of the Nanosatellites for Space Weather Monitoring // 72nd International Astronautical Congress 2021. — United Arab Emirates : IAF, 2021.
8. Minligareev V. T., Kachanovsky Y. M., Panshin E. A., et al. Creation of a distributed reference base for radiometric equipment of heliogeophysical complexes of hydrometeorological spacecraft // Measurements World. — 2016. — No. 1. — P. 51–59. — (In Russian).
9. Minligareev V. T., Kachanovskii Y. M., Kravchenok V. L., et al. Metrological support for the roshydromet ionospheric and magnetic observation network // Meteorologiya i Gidrologiya. — 2021. — No. 4. — P. 43–52. — DOI:https://doi.org/10.52002/0130-2906-2021-4-43-52. — (In Russian).
10. Minligareev V. T., Kalishin A. S. Monitoring geophysical condition in the Arctic zone of Russian Federation // Proceedings of the scientific and practical conference “Prevention and elimination of emergency situations in the Arctic zone of the Russian Federation”. — Murmansk : MASU, 2023a. — P. 224–226. — (In Russian).
11. Minligareev V. T., Vishnyakov D. D., Kalishin A. S. Space weather hazards impact on technical means and systems // Tekhnologii grazhdanskoy bezopasnosti. — 2023b. — Vol. 20, 3(77). — P. 30–34. — (In Russian).
