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Application of Detailed Magnetics in Intensive Industrial Noise Conditions

  • P. N. NovikovaEmail author
Conference paper
Part of the Springer Proceedings in Earth and Environmental Sciences book series (SPEES)

Abstract

The use of detailed magnetics for the localization of underground communications and engineering-geological wells is considered. Special technique aspects of field survey and data processing in the intensive industrial noise conditions are presented. The amplitude-frequency spectrum of technogenic noise is analyzed by means of empirical mode decomposition (EMD) decomposition. The qualitative interpretation results of detailed magnetics are revealed when different types of communications and wells are detected.

Keywords

Detailed magnetics Intensive industrial noise Empirical mode decomposition (EMD) Underground pipeline Well 

References

  1. Davydov, V.A. and Davydov, A.V. (2010). Purification of geophysical data from noise using the Hilbert-Huang transformation. Electronic scientific publication «Aktual’nye innovacionnye issledovanija: nauka i praktika» . №1.Google Scholar
  2. Dolgal, A.S. and Hristenko, L.A. (2017). Application of empirical mode decomposition in the processing of geophysical data. Izvestija Tomskogo politehnicheskogo universiteta. Inzhiniring georesursov. T. 328. № 1. pp. 100–108.Google Scholar
  3. Fomenko N.E., Zhurbickij B.I., Fomenko L.N. (2016). Prediction of electromagnetic pollution of urban areas using special hardware and software. Geofizicheskie metody pri razvedke nedr: materialy Vserossijskoj nauchno-prakticheskoj konferencii s mezhdunarodnym uchastiem, posvjashhennoj 70-letiju osnovanija v Tomskom politehnicheskom institute kafedry «Geofizicheskie metody poiskov i razvedki mestorozhdenij poleznyh iskopaemyh». Tomskij politehnicheskij universitet. Tomsk : Izd-vo Tomskogo politehnicheskogo universiteta. pp. 283–288.Google Scholar
  4. Novikova, P.N. and Voroshilov, V.A. (2017). Detection of underground infrastructure in conditions of intensive industrial noise on magnetic field data. Geophysics. № 5. pp. 4–9.Google Scholar
  5. Novikova, P.N., Voroshilov, V.A., Kopytin, V.V., Subbotin, P.A., Kalashnikova, M.M., Temirov, P.A. (2017). Detection of underground communications by engineering magnetic prospecting in conditions of anthropogenic origin noise. Vosemnadcataja ural’skaja molodezhnaja nauchnaja shkola po geofizike: Sbornik nauch. Materialov. Perm: GI UrO RAN. pp. 147–151.Google Scholar
  6. Utkin, V.I., Tjagunov, D.S., Sokol-Kutylovskij, O.L., Senina, T.E. (2010). Distortion of magnetic field by electromagnetic noise of low frequencies of technogenic origin. Vestnik KRAUNC. Serija: Nauki o Zemle. Vyp. 15. № 1. pp. 216–222.Google Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.Mining Institute UB of RASPermRussia

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