Using Small Unmanned Aerial Vehicles for Turbulence Measurements in the Atmosphere

This paper demonstrates the possibility of using the telemetry of small unmanned aerial vehicles (UAVs) to monitor the state of atmospheric turbulence. The turbulence spectrum is determined from data on the roll, pitch, and yaw angles of the DJI Mavic Mini quadcopter and then compared with measureme...

Full description

Saved in:
Bibliographic Details
Published inIzvestiya. Atmospheric and oceanic physics Vol. 57; no. 5; pp. 533 - 545
Main Authors Shelekhov, A. P., Afanasiev, A. L., Shelekhova, E. A., Kobzev, A. A., Tel’minov, A. E., Molchunov, A. N., Poplevina, O. N.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.09.2021
Springer Nature B.V
Subjects
Atmosphere
Atmospheric optics
Atmospheric turbulence
Climatology
Earth and Environmental Science
Earth Sciences
Geophysics/Geodesy
Isotropic turbulence
Miniature aircraft
Optics
Pitch (inclination)
Regression models
Rolling motion
Spectra
Telemetry
Turbulence measurement
Turbulence spectra
Unmanned aerial vehicles
Weather stations
Yaw
Yawing
turbulence scales
low-altitude sounding
unmanned aerial vehicle
atmospheric turbulence
spectrum
Online AccessGet full text

Cover

More Information
Summary:This paper demonstrates the possibility of using the telemetry of small unmanned aerial vehicles (UAVs) to monitor the state of atmospheric turbulence. The turbulence spectrum is determined from data on the roll, pitch, and yaw angles of the DJI Mavic Mini quadcopter and then compared with measurements of AMK-03 autonomous sonic weather station. The measurements are carried out at the Basic Experimental Complex (BEC) of the Zuev Institute of Atmospheric Optics, Siberian Branch, Russian Academy of Sciences (SB RAS) (Tomsk, Russia), the territory of which has a nearly smooth and uniform surface, on July 24 and August 12, 2020. It has been found that the turbulence spectra obtained with AMK-03 and the DJI Mavic Mini are generally identical with minor discrepancies in the high-frequency spectral range from Hz. For the data obtained in July, the turbulence spectra in the inertial range obey the 5/3 law, and the relation of measured turbulence spectra of the longitudinal and transverse velocity components corresponds to the Kolmogorov–Obukhov isotropic turbulence. As for the data obtained in August, a slight deviation from the 5/3 law was observed in both AMK-03 and DJI Mavic Mini measurements. The longitudinal and transverse turbulence scales were estimated by the least-square fit method with the von Karman model as a regression curve. The turbulence scales calculated from the July and August data of AMK-03 and the DJI Mavic Mini coincide, and the condition describing the relation between the longitudinal and transverse scales in the isotropic atmosphere stays true to a good accuracy.
ISSN:0001-4338
1555-628X
DOI:10.1134/S0001433821050133