Evaluation of an Automatic Meteorological Drone Based on a 6-Month Measurement Campaign

Hervo, Maxime; Romanens, Gonzague; Martucci, Giovanni; Weusthoff, Tanja; Haefele, Alexander

doi:10.3390/atmos14091382

Cited by 5 publications

(4 citation statements)

References 43 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Nonetheless, a fully autonomous drone mission flying into airspace accessible to crewed aircraft would also require significant risk mitigations to comply with airspace regulations in many countries including at our Great Barrier Reef site. Exploring this direction could offer an affordable alternative for research purposes compared to more expensive specialised systems and crew [70].…”

Section: Discussionmentioning

confidence: 99%

Exploring Meteorological Conditions and Microscale Temperature Inversions above the Great Barrier Reef through Drone-Based Measurements

Eckert,

Monteforte,

Harrison

et al. 2023

Drones

View full text Add to dashboard Cite

Understanding the atmospheric conditions in remote areas contributes to assessing local weather phenomena. Obtaining vertical profiles of the atmosphere in isolated locations can introduce significant challenges for the deployment and maintenance of equipment, as well as regulatory obstacles. Here, we assessed the potential of consumer drones equipped with lightweight atmospheric sensors to collect vertical meteorological profiles off One Tree Island (Great Barrier Reef), located approximately 85 km off the east coast of Australia. We used a DJI Matrice 300 drone with two InterMet Systems iMet-XQ2 UAV sensors, capturing data on atmospheric pressure, temperature, relative humidity, and wind up to an altitude of 1500 m. These flights were conducted three times per day (9 a.m., 12 noon, and 3 p.m.) and compared against ground-based weather sensors. Over the Austral summer/autumn, we completed 72 flights, obtaining 24 complete sets of daily measurements of atmospheric characteristics over the entire vertical profile. On average, the atmospheric temperature and dewpoint temperature were significantly influenced by the time of sampling, and also varied among days. The mean daily temperature and dewpoint temperature reached their peaks at 3 p.m., with the temperature gradually rising from its morning low. The mean dewpoint temperature obtained its lowest point around noon. We also observed wind speed variations, but changes in patterns throughout the day were much less consistent. The drone-mounted atmospheric sensors exhibited a consistent warm bias in temperature compared to the reference weather station. Relative humidity showed greater variability with no clear bias pattern, indicating potential limitations in the humidity sensor’s performance. Microscale temperature inversions were prevalent around 1000 m, peaking around noon and present in approximately 27% of the profiles. Overall, the drone-based vertical profiles helped characterise atmospheric dynamics around One Tree Island Reef and demonstrated the utility of consumer drones in providing cost-effective meteorological information in remote, environmentally sensitive areas.

show abstract

Section: Discussionmentioning

confidence: 99%

Exploring Meteorological Conditions and Microscale Temperature Inversions above the Great Barrier Reef through Drone-Based Measurements

Eckert,

Monteforte,

Harrison

et al. 2023

Drones

View full text Add to dashboard Cite

show abstract

“…Nonetheless, aircraft usually fly on predefined routes, especially during the initial climb and approach phases, which limits the spatial data availability to a narrow strip aligned with the runway, especially close to the ground. Several studies [4,7,11,[13][14][15][16][17][18] advocate for the adoption of UASs for in situ atmospheric probing, highlighting their cost-effectiveness, mobility, and reusability.…”

Section: Introductionmentioning

confidence: 99%

“…Hervo et al [18] have published the results of a campaign in which atmospheric measurements from a Meteodrone MM-670 (flight time: ~22 min, diameter: 70 cm, weight: 5 kg), a hexacopter manufactured by Meteomatics, were compared to measurements taken by a weather balloon-tethered radiosonde (RS41 by Vaisala) as well as remote sensing equipment (microwave radiometer, Raman lidar). The UAS was launched every hour between 20:00 and 04:00 UTC during working days, while the sonde was launched every day at 11:00 and 23:00 UTC.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Drone-Based Vertical Atmospheric Temperature Profiling in Urban Environments

Laukys,

Maršalka,

Daugėla

et al. 2023

Drones

View full text Add to dashboard Cite

The accurate and detailed measurement of the vertical temperature, humidity, pressure, and wind profiles of the atmosphere is pivotal for high-resolution numerical weather prediction, the determination of atmospheric stability, as well as investigation of small-scale phenomena such as urban heat islands. Traditional approaches, such as weather balloons, have been indispensable but are constrained by cost, environmental impact, and data sparsity. In this article, we investigate uncrewed aerial systems (UASs) as an innovative platform for in situ atmospheric probing. By comparing data from a drone-mounted semiconductor temperature sensor (TMP117) with traditional radiosonde measurements, we spotlight the UAS-collected atmospheric data’s accuracy and such system suitability for atmospheric surface layer measurement. Our research encountered challenges linked with the inherent delays in achieving ambient temperature readings. However, by applying specific data processing techniques, including smoothing methodologies like the Savitzky–Golay filter, iterative smoothing, time shift, and Newton’s law of cooling, we have improved the data accuracy and consistency. In this article, 28 flights were examined and certain patterns between different methodologies and sensors were observed. Temperature differentials were assessed over a range of 100 m. The article highlights a notable accuracy achievement of 0.16 ± 0.014 °C with 95% confidence when applying Newton’s law of cooling in comparison to a radiosonde RS41’s data. Our findings demonstrate the potential of UASs in capturing accurate high-resolution vertical temperature profiles. This work posits that UASs, with further refinements, could revolutionize atmospheric data collection.

show abstract

Multirotor UAV icing correlated to liquid water content measurements in natural supercooled clouds

Miller,

Fuchs,

Omanovic

et al. 2024

Cold Regions Science and Technology

View full text Add to dashboard Cite

Evaluation of an Automatic Meteorological Drone Based on a 6-Month Measurement Campaign

Cited by 5 publications

References 43 publications

Exploring Meteorological Conditions and Microscale Temperature Inversions above the Great Barrier Reef through Drone-Based Measurements

Exploring Meteorological Conditions and Microscale Temperature Inversions above the Great Barrier Reef through Drone-Based Measurements

Drone-Based Vertical Atmospheric Temperature Profiling in Urban Environments

Multirotor UAV icing correlated to liquid water content measurements in natural supercooled clouds

Contact Info

Product

Resources

About