A Practical Validation of Uncooled Thermal Imagers for Small RPAS

Leblanc, George; Kalácska, Margaret; Arroyo‐Mora, J. Pablo; Lucanus, Oliver; Todd, A. D. W.

doi:10.3390/drones5040132

Cited by 3 publications

(1 citation statement)

References 57 publications

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“…The radiometric calibration presented in this paper is more accurate than the previous one made by the authors [56], but is also simple and made with the use of equipment available to the authors, and not as accurate as that presented in the work of Leblanc et al [62]. The differences in the aspect of the calibration measurements concern the distance of the thermal camera from the calibration surface and the use of two thermal points for calibration.…”

Section: Resultsmentioning

confidence: 70%

Experience Gained When Using the Yuneec E10T Thermal Camera in Environmental Research

et al. 2022

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Thermal imaging is an important source of information for geographic information systems (GIS) in various aspects of environmental research. This work contains a variety of experiences related to the use of the Yuneec E10T thermal imaging camera with a 320 × 240 pixel matrix and 4.3 mm focal length dedicated to working with the Yuneec H520 UAV in obtaining data on the natural environment. Unfortunately, as a commercial product, the camera is available without radiometric characteristics. Using the heated bed of the Omni3d Factory 1.0 printer, radiometric calibration was performed in the range of 18–100 °C (high sensitivity range–high gain settings of the camera). The stability of the thermal camera operation was assessed using several sets of a large number of photos, acquired over three areas in the form of aerial blocks composed of parallel rows with a specific sidelap and longitudinal coverage. For these image sets, statistical parameters of thermal images such as the mean, minimum and maximum were calculated and then analyzed according to the order of registration. Analysis of photos taken every 10 m in vertical profiles up to 120 m above ground level (AGL) were also performed to show the changes in image temperature established within the reference surface. Using the established radiometric calibration, it was found that the camera maintains linearity between the observed temperature and the measured brightness temperature in the form of a digital number (DN). It was also found that the camera is sometimes unstable after being turned on, which indicates the necessity of adjusting the device’s operating conditions to external conditions for several minutes or taking photos over an area larger than the region of interest.

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Section: Resultsmentioning

confidence: 70%

Experience Gained When Using the Yuneec E10T Thermal Camera in Environmental Research

et al. 2022

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Capability of the building-resolving PALM model system to capture micrometeorological characteristics of an urban environment in Vienna, Austria

Hollósi,

Žuvela-Aloise,

Neureiter

et al. 2024

City and Environment Interactions

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Evaluation of the Thermal Behavior of Plants in the Microgreenhouse With Microbolometric Image Sensors

IPATE,

COTICI,

IONESCU

et al. 2023

INMATEH

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In this research, the data from temperature measurements obtained with the InfiRay T2S+ device, an infrared thermal imaging camera have been checked to monitor plant thermal behaviour. Plant leaf temperature is a parameter frequently used as representative for stomatal conductance, as stomatal confinement results in attenuated transpiration, and consequently leads to increased plant temperature. Also, to identify the stress of the plant, indices of thermal and modified stress have been calculated. The results obtained show that the Kalanchoe blossfeldiana species chosen for this study, when exposed to extreme values of temperature or water requirements, presented significant changes in the infrared electromagnetic wave spectra.

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A Practical Validation of Uncooled Thermal Imagers for Small RPAS

Cited by 3 publications

References 57 publications

Experience Gained When Using the Yuneec E10T Thermal Camera in Environmental Research

Experience Gained When Using the Yuneec E10T Thermal Camera in Environmental Research

Capability of the building-resolving PALM model system to capture micrometeorological characteristics of an urban environment in Vienna, Austria

Evaluation of the Thermal Behavior of Plants in the Microgreenhouse With Microbolometric Image Sensors

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