Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

Universal remote data collection system for monitoring the characteristics of the natural environment

DOI 10.18127/j19997493-201804-01

Keywords:

L.V. Grunskaya – Dr.Sc.(Eng.), Professor, Department of General and Applied Physics, Vladimir State University named after A.&N. Stoletovs
E-mail: grunsk@vlsu.ru
A.N. Zolotov – Ph.D.(Eng.), Associate Professor, Department of General and Applied Physics, Vladimir State University named after A.&N. Stoletovs
E-mail: zolotovan@inbox.ru
A.S. Bushuev – Undergraduate, Vladimir State University named after A.&N. Stoletovs
E-mail: artem_bushuev_1996@mail.ru
I.A. Snygina – Student, Vladimir State University named after A.&N. Stoletovs
E-mail: iriskk@mail.ru
V.E. Lukyanov – Post-graduate Student, Vladimir State University named after A.&N. Stoletovs
E-mail: ghostly_slayer@mail.ru


A system of multichannel synchronous monitoring of the electric and geomagnetic field with meteorological parameters has been created at the physical experimental site of VlSU. The development of the receiving and recording complex began in 1972. The main ex-perimental base of the research is the Physical Experimental VlSU test site, located 40 km from the city of Vladimir on the territory of 4 hectares and is used for continuous synchronous recordings of the electric and geomagnetic fields in the INCH range.
The receiving antenna complex includes ground-type, underground and underwater antennas, magnetic antennas (fluxgate magne-tometers), fluxmeters for measuring the electrostatic field in the surface layer, a system of graphite electrodes, and a weather complex. Continuous monitoring of the electric and geomagnetic field of the surface layer of the atmosphere in the infra-low frequency range (INCH EMPS) is carried out with the aim of: fundamental research of the electromagnetic field of the surface layer of the atmosphere; the study of atmospheric electricity; detection of electromagnetic earthquake precursors; evaluation of the gravitational effects of lunar tides on the EMPS; evaluation of the gravitational-wave effects of astrophysical nature; biophysical effects of INCH EMPS on human health indicators. The created complex performs the following tasks: registration of the electric field, geomagnetic field, meteodata; collection, processing and storage of monitoring results; remote analysis of experimental databases.
The created complex performs the following tasks: registration of the electric field, geomagnetic field, meteodata; collection, processing and storage of monitoring results; remote analysis of experimental databases. In 2010−2017, the receiving-recording monitoring system was upgraded at a physical experimental test site based on the Megapolis-TM software and hardware complex. Modernization of the receiving and recording complex of the physical test site arose due to the need to provide remote access to information obtained from the test site sensors, as well as the need to provide a data collection system with a fault-tolerant industrial computer and an ADC system of increased reliability.

References:
  1. Grunskaya L.V., Isakevich V.V., Isakevich D.V., Luk’yanov V.E. Ajgenoskopiya vremenny’x ryadov vertikal’noj sostavlyayushhej e’lektricheskogo polya pogranichnogo sloya atmosfery’ zemli na kombinaczionny’x chastotax lunny’x prilivov // Dinamika slozhny’x sistem – XXI vek. 2016. № 1. S. 74−78.
  2. Grunskaya L.V., Isakevich V.V., Isakevich D.V., Rubaj D.V. Ajgenoskopiya vremenny’x ryadov vertikal’noj sostavlyayushhej e’lektricheskogo polya pogranichnogo sloya atmosfery’ Zemli na chastotax lunny’x prilivov // Dinamika slozhny’x sistem–XXI vek. 2014. № 5. S. 31−35.
  3. Grunskaya L.V., Morozov V.V. E’ksperimental’ny’e i teoreticheskie issledovaniya variaczij napryazhennosti e’lektricheskogo polya, obuslovlenny’x solnechny’mi i lunny’mi prilivami v prizemnom sloe atmosfery’ // Izvestiya VUZov. Fizika. 2005. № 8. S. 33−39.
  4. Grunskaya L.V., Efimov V.A. Priemno-registriruyushhaya apparatura dlya issledovaniya vzaimosvyazi e’lektricheskogo polya prizemnogo sloya atmosfery’ s geofizicheskimi proczessami // Proektirovanie i texnologiya e’lektronny’x sredstv. 2006. № 1. S. 69−74.
  5. Grunskaya L.V. Mobil’ny’j priemno-registriruyushhij kompleks dlya monitoringa e’lektromagnitnogo polya prizemnogo sloya atmosfery’ // Proektirovanie i texnologiya e’lektronny’x sredstv. 2005. № 2. S. 69−74.
  6. Grunskaya L.V. Sistema mnogokanal’nogo sinxronnogo monitoringa e’lektromagnitny’x polej KNCh diapazona prizemnogo sloya // Proektirovanie i texnologiya e’lektronny’x sredstv. 2004. Specz. vy’p. S. 38−45.
  7. Grunskaya L.V. Oczenka parametrov e’lektricheskogo polya prizemnogo sloya atmosfery’ na osnove metoda korrelyaczionnogo priem. Vladimir: Vladimirskij gosudarstvenny’j universitet. 2010. 123 c.
  8. Grunskaya L.V., Isakevich V.V., Efimov V.A., Sushkova L.T. Reshenie zadachi obnaruzheniya lunny’x prilivov v e’lektricheskom pole pogranichnogo sloya atmosfery’ // E’lektromagnitny’e volny’ i e’lektronny’e sistemy’. 2012. № 3. S. 45−50.
  9. Grunskaya L.V.,.Isakevich V.V, Isakevich D.V., Rubaj D.V., Zolotov A.N. Issledovanie vozdejstviya lunny’x prilivov na e’lektromagnitnoe pole pogranichnogo sloya atmosfery’ s pomoshh’yu metoda sobstvenny’x vektorov // Izvestiya VUZov. Fizika. 2013. T. 56. № 4. S. 65−70.
  10. Grunskaya L.V.,Morozov V.N., Efimov V.A., Zolotov A.N., Rubaj D.V., Zakirov A.A. Monitoring e’lektromagnitny’x polej pogranichnogo sloya atmosfery’ Zemli. Germany, LAP LAMBERT AcademicPublishing. 2013. 192 s.

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio