A METHOD FOR HIGH-PRECISION IN-FLIGHT MEASUREMENT OF MAGNETIC FIELDS FROM REMOTE RADIO TRANSMITTERS

D. V. Epishkin; N. I. Zorin; G. R. Muradyan; A. G. Yakovlev

doi:10.2113/RGG20254924

A METHOD FOR HIGH-PRECISION IN-FLIGHT MEASUREMENT OF MAGNETIC FIELDS FROM REMOTE RADIO TRANSMITTERS

D. V. Epishkin
, N. I. Zorin^*
, G. R. Muradyan
, A. G. Yakovlev

^*Corresponding author for this work

School of Mathematics

Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences
STC Nord-West
Lomonosov Moscow State University

Research output: Contribution to journal › Article › peer-review

Abstract

This study demonstrates the practical feasibility of high-precision in-flight measurement of magnetic fields from remote radio transmitters, including the use of unmanned aerial vehicles. The proposed method is based on calculating the Euclidean norm of the full complex magnetic field vector, which eliminates any dependence of the result on the orientation of the measurement system. To compensate for primary field instability, normalization is performed using a synchronized signal from a stationary base receiver. Further accuracy is achieved through pre-flight sensor calibration and spatial data smoothing during processing. Test measurements demonstrate good result reproducibility, with a discrepancy of less than 0.5% of the signal level. Moreover, magnetic field anomaly maps obtained at different altitudes show strong correlation both with each other and with archival data from ground-based inductive electromagnetic surveys.

Original language	English
Pages (from-to)	436-446
Number of pages	11
Journal	Russian Geology and Geophysics
Volume	67
Issue number	3
DOIs	https://doi.org/10.2113/RGG20254924
State	Published - Mar 2026

Keywords

Airborne electromagnetic surveying
radio magnetotellurics
radiokip
unmanned aerial vehicle
very low frequency

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10.2113/RGG20254924

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title = "A METHOD FOR HIGH-PRECISION IN-FLIGHT MEASUREMENT OF MAGNETIC FIELDS FROM REMOTE RADIO TRANSMITTERS",

abstract = "This study demonstrates the practical feasibility of high-precision in-flight measurement of magnetic fields from remote radio transmitters, including the use of unmanned aerial vehicles. The proposed method is based on calculating the Euclidean norm of the full complex magnetic field vector, which eliminates any dependence of the result on the orientation of the measurement system. To compensate for primary field instability, normalization is performed using a synchronized signal from a stationary base receiver. Further accuracy is achieved through pre-flight sensor calibration and spatial data smoothing during processing. Test measurements demonstrate good result reproducibility, with a discrepancy of less than 0.5\% of the signal level. Moreover, magnetic field anomaly maps obtained at different altitudes show strong correlation both with each other and with archival data from ground-based inductive electromagnetic surveys.",

keywords = "Airborne electromagnetic surveying, radio magnetotellurics, radiokip, unmanned aerial vehicle, very low frequency",

author = "Epishkin, \{D. V.\} and Zorin, \{N. I.\} and Muradyan, \{G. R.\} and Yakovlev, \{A. G.\}",

note = "Publisher Copyright: {\textcopyright} D.V. Epishkin, N.I. Zorin, G.R. Muradyan, A.G. Yakovlev, 2026.",

year = "2026",

month = mar,

doi = "10.2113/RGG20254924",

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AU - Epishkin, D. V.

AU - Zorin, N. I.

AU - Muradyan, G. R.

AU - Yakovlev, A. G.

N1 - Publisher Copyright: © D.V. Epishkin, N.I. Zorin, G.R. Muradyan, A.G. Yakovlev, 2026.

PY - 2026/3

Y1 - 2026/3

N2 - This study demonstrates the practical feasibility of high-precision in-flight measurement of magnetic fields from remote radio transmitters, including the use of unmanned aerial vehicles. The proposed method is based on calculating the Euclidean norm of the full complex magnetic field vector, which eliminates any dependence of the result on the orientation of the measurement system. To compensate for primary field instability, normalization is performed using a synchronized signal from a stationary base receiver. Further accuracy is achieved through pre-flight sensor calibration and spatial data smoothing during processing. Test measurements demonstrate good result reproducibility, with a discrepancy of less than 0.5% of the signal level. Moreover, magnetic field anomaly maps obtained at different altitudes show strong correlation both with each other and with archival data from ground-based inductive electromagnetic surveys.

AB - This study demonstrates the practical feasibility of high-precision in-flight measurement of magnetic fields from remote radio transmitters, including the use of unmanned aerial vehicles. The proposed method is based on calculating the Euclidean norm of the full complex magnetic field vector, which eliminates any dependence of the result on the orientation of the measurement system. To compensate for primary field instability, normalization is performed using a synchronized signal from a stationary base receiver. Further accuracy is achieved through pre-flight sensor calibration and spatial data smoothing during processing. Test measurements demonstrate good result reproducibility, with a discrepancy of less than 0.5% of the signal level. Moreover, magnetic field anomaly maps obtained at different altitudes show strong correlation both with each other and with archival data from ground-based inductive electromagnetic surveys.

KW - Airborne electromagnetic surveying

KW - radio magnetotellurics

KW - radiokip

KW - unmanned aerial vehicle

KW - very low frequency

UR - https://www.scopus.com/pages/publications/105035173888

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SN - 1068-7971

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JO - Russian Geology and Geophysics

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IS - 3

ER -

A METHOD FOR HIGH-PRECISION IN-FLIGHT MEASUREMENT OF MAGNETIC FIELDS FROM REMOTE RADIO TRANSMITTERS

Abstract

Keywords

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