Onboard information system for the investigation of particle fluxes in the outer space

1Pohribnyi, VO, 2Rozhankivskyi, IV, 2Taianov, SA
1State Research Institute of Information Infrastructure National Academy of Sciences of Ukraine, Lviv, Ukraine; Institute of Telecommunications Agricultural and Technical Academy, Bydgoszcz, Poland
2National University «Lviv Polytechnic», Lviv, Ukraine
Kosm. nauka tehnol. 1998, 4 ;(4):44–48
Section: Spacecrafts and Payloads
Publication Language: Ukrainian
The onboard information system STEP is intended for the identification, energy measurements, and determination of space-time characteristics particles in the magnetosphere and open space It operates together with telescopic detectors which are installed outside a satellite. Processing of detector signals of energetic reveals that the fluxes are non-stationary − the flux intensities vary about drastically the average intensity. Stochastic relationships between the intensities of casual particle flows and the pa­rameters of electric and magnetic fields are studied with the use of cross-correlation analysis.
Keywords: atmospheric physics, space information system
1. Voronov S. A., Gal'per A. M., Kirillov-Ugriumov V. G., et al. Detection of increases of high-energy particle fluxes in the region of the Brazilian geomagnetic anomaly on Sept. 10, 1985. Kosmicheskie Issledovaniia, 27 (4), 629-631 (1989) [In Russian].
2. Voronov S. A., Gal'per A. M., Koldashov S. V., et al. Increases in the fluxes of high-energy charged particles in the region of the Brazilian magnetic anomaly and the earth's seismicity. Kosmicheskie Issledovaniia, 28 (5), 789-791 (1990) [In Russian].
3. Gal'per A. M., Dmitrenko V. V., Nikitina N. V., et al. Relationship between fluxes of high-energy charged particles in the radiation belt and the earth's seismicity. Kosmicheskie Issledovaniia, 27 (4), 789-792 (1989) [In Russian].
4. Lazutin L., Khrushchinsky A. Pulsating precipitation of energetic electrons in the auroral zone. In: Energetic particles in the auroral magnetosphere, 74-93 (Kol'skij filial AN SSSR, Apatity, 1977) [In Russian].
5. Oppenheim A. V., Schafer R. W. Digital signal processing, 416 p. (Svjaz', Moscow, 1979) [In Russian].
6. Pogribnoj V. A. On-Board Systems for Signal Processing, 216 p. (Naukova Dumka, Kiev, 1984) [in Russian].
7. Pustovetov V. P., Malyshev A. B. Space-Time Correlation of earthquakes and  high-energy particle flux variations in the inner radiation belt. Kosmicheskie Issledovaniya, 31 (5), 84-90 (1993) [In Russian].
8. Pogribnyi V., Rozhankivsky I., Zelinski I., et al. Programmable system for measurement and processing of the sensor signals of particles fluxes in space plasma. Proc. of the International Conference Programmable Devices and Systems, PDS`98, 337-343 (Polish Section IEEE, Gliwice, 1998).

9. Voronov S. A., Galper A. M., Kirillov-Ugriumov V.G., et al. Registration of sporadic increase of high energy particle flux near Brazilian anomaly region. Proc. 20-th Int. Cos. Ray Conf., Vol. 4, P. 451 (1987).