Practical implementation of detection of spatiotemporal instability of atmosphere in the network of active reference stations UAEUPOS/ ZAKPOS

1Kablak, NI, 2Kaliuzhnyi, MP, 2Shulga, AV, 2Vovk, VS
1Uzhhorod National University, Uzhgorod, Ukraine
2Scientific-Research Institute «Mykolaiv Astronomical Observatory», Mykolaiv, Ukraine
Space Sci.&Technol. 2017, 23 ;(1):54-62
https://doi.org/10.15407/knit2017.01.054
Publication Language: Ukrainian
Abstract: 
A modern network of active reference stations allows you to not only solve the practical tasks of geodesy and navigation but also purely scientific problems that are important in all geosciences. The principle of operation of an atmosphere remote monitoring system is based on the registration and processing of GLONASS/GPS signals. Such system is designed to obtain information about the state of the atmosphere. Basing on 845 time measurements of troposphere delay by 20 stations of UAEUPOS/ZAKPOS network, we have studied the spatiotemporal instability of the atmosphere over the territory covering active reference stations.
Keywords: atmospheric delay, GPS, system for remote monitoring of the atmosphere
References: 
1. Bushuev F. I., Kalyuzhny N. A., Slivinsky A. P., Shulga A. V. The use of FM-signals of broadcasting stations for meteor activity investigation. Kosm. nauka tehnol., 17 (3), 60—70 (2011) [In Russian].
https://doi.org/10.15407/knit2011.03.060
2. Kablak N. I. The technology of the tropospheric delay in network of active reference stations ZAKPOS / UAEUPOS. Kinematics and Physics of Celestial Bodies, 29 (4), 73—80 (2013).
https://doi.org/10.3103/S088459131304003X
3. Kablak N. I. Development of technology of tropospheric delay for GNSS observations in real time. Geodesy and Cartography astrophoto pictures, N 76, 3—7 (2012).
4. Kablak N. I. Algorithm for construction of isosurfaces of tropospheric delays in real-time observations New technologies in geodesy, land management and environmental management: 6th Intern. Pract. Conf.,October 24-27, 2012: Proc. - Uzhhorod: Hoverla, 2012.: 185—186.
5. Kablak N. I. Method of determining the impact on results troposphere GNSS — measuring network of active reference stations. Recent advances in geodetic science and industry, N 1 (25), 62—66 (2013).
6. Savchuk S., Prodanets I., Kalynych I. Creation of ZAKPOS active network reference stations for Transcarphatian region of Ukraine. — Berlin.(2008).
7. Slivinsky A. P., Shulga A. V., Bushuev F. I., Kalyuzhny N. A., Kozyryev Ye. S., Vovk V. S. Investigation of the density of meteor showers in the RI NAO using signals of FM stations. The Abstract Book of the Young Sci. Conf. «Remote radio sounding of the ionosphere», P. 35 (2011).