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Characterizing thermodynamic observations from unshielded multirotor drone sensors

S. W. Freeman et al · Copernicus Publications · 2026

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<p>Multirotor drones (part of the category of small Uncrewed Aerial Systems [sUAS] or small Uncrewed Aerial Vehicles [sUAV]) are used in atmospheric research to make measurements of the lower atmosphere, and their use is poised to increase in the future. New drone atmospheric sensing opportunities, such as ride-along applications and drone swarms, are emerging. These opportunities, which may not allow room for specialized shielding or aspiration equipment, together with increased drone usage, necessitate the characterization of the performance of unshielded sensors mounted to drones if the accuracy of such observations is to be understood. In this work, we characterize the accuracy of thermodynamic measurements, specifically temperature and water vapor mixing ratio, based on the sensor mounting position onboard multirotor drones. To assess the influence of the drone mechanics on the measurements, ninety-eight individual drone flights with eight distinct thermodynamic sensor positions were performed next to an instrumented flux tower and a tethersonde carrying identical sensors, where the tower and tethersonde measurements are assumed as truth. The flights were at least nine minutes in length, and nine of the flights were conducted at night. At the best position, absolute daytime temperature errors were between <span class="inline-formula">−</span>0.83 and <span class="inline-formula">+</span>0.61 K at the 95 % confidence interval, while nighttime temperature errors were smaller, ranging from <span class="inline-formula">−</span>0.28 and <span class="inline-formula">+</span>0.48 K. Water vapor mixing ratio errors are within <span class="inline-formula">−</span>0.22 and <span class="inline-formula">+</span>0.66 g kg<span class="inline-formula"><sup>−1</sup></span>. We conclude that measurements in field campaigns are more accurate when sensors are placed away from the main body of the drone and are sufficiently aspirated, such as a position near, but not directly under, a spinning propeller.</p>

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APA 7

al, S. W. F. E. (2026). Characterizing thermodynamic observations from unshielded multirotor drone sensors. https://doi.org/10.5194/amt-19-2941-2026

MLA

al, S. W. Freeman et. "Characterizing thermodynamic observations from unshielded multirotor drone sensors." 2026. https://doi.org/10.5194/amt-19-2941-2026.

Chicago

al, S. W. Freeman et. 2026. "Characterizing thermodynamic observations from unshielded multirotor drone sensors.". https://doi.org/10.5194/amt-19-2941-2026.

Harvard

al, S. W. F. E. 2026, Characterizing thermodynamic observations from unshielded multirotor drone sensors, Copernicus Publications, available at: https://doi.org/10.5194/amt-19-2941-2026 [Accessed 30 Jun. 2026].

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Título
Characterizing thermodynamic observations from unshielded multirotor drone sensors
Autor / colaboradores
S. W. Freeman et al
Editorial
Copernicus Publications
Año de publicación
2026
ISSN
1867-1381
ISSN
1867-1381
Idioma
eng
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