2022
DOI: 10.1016/j.fecs.2022.100068
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Remote sensing of bark beetle damage in Norway spruce individual tree canopies using thermal infrared and airborne laser scanning data fusion

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Cited by 4 publications
(1 citation statement)
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“…Among them, RGB sensors take images in the visible range of the spectrum (i.e., three channels-red, green, and blue) and have been extensively used for many applications, owing to their low cost and high resolution [10]. On the other hand, thermal sensors capture images that measure surface temperatures, which is beneficial for numerous applications, e.g., forest fire monitoring [11] or detection of insect-induced canopy temperature increases [12], for instance, those created by bark beetle infestations of Norway spruce (Pinus abies) trees [13]. To facilitate monitoring in Geographic Information Systems (GIS) for such applications, drone-collected images need to be orthorectified and stitched together to generate an orthophoto mosaic (hereafter orthomosaic).…”
Section: Introductionmentioning
confidence: 99%
“…Among them, RGB sensors take images in the visible range of the spectrum (i.e., three channels-red, green, and blue) and have been extensively used for many applications, owing to their low cost and high resolution [10]. On the other hand, thermal sensors capture images that measure surface temperatures, which is beneficial for numerous applications, e.g., forest fire monitoring [11] or detection of insect-induced canopy temperature increases [12], for instance, those created by bark beetle infestations of Norway spruce (Pinus abies) trees [13]. To facilitate monitoring in Geographic Information Systems (GIS) for such applications, drone-collected images need to be orthorectified and stitched together to generate an orthophoto mosaic (hereafter orthomosaic).…”
Section: Introductionmentioning
confidence: 99%