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Comparison of Canopy Extraction Methods from UAV Thermal Images for Temperature Mapping: a Case Study from a Peach Orchard
1L. Katz, 2A. Ben-Gal, 3I. Litaor, 4A. Naor, 5A. Peeters, 6E. Goldshtein, 6V. Alchanatis, 6Y. Cohen
1. Institute of Agricultural Engineering, Agricultural Research Organization, Volcani Center, Rishon-LeZion, 50250, Israel; Department of Soil and Water Sciences, The Robert H. Smith Faculty of Agricultu
2. Environmental Physics and Irrigation, Agricultural Research Organization, Gilat Research Center, M.P. Negev, 85280, Israel
3. Department of Precision Agriculture, MIGAL Galilee Research Institute, P.O.B. 831 Kiryat Shmona, 11016, Israel; Department of Environmental Sciences, Tel Hai College, Upper Galilee, 1220800, Israel
4. Department of Precision Agriculture, MIGAL Galilee Research Institute, P.O.B. 831 Kiryat Shmona, 11016, Israel
5. TerraVision Lab, P.O. Box 225, Israel 8499000
6. Institute of Agricultural Engineering, Agricultural Research Organization, Volcani Center, Rishon-LeZion, 50250, Israel

Canopy extraction using thermal images significantly affects temperature mapping and crop water status estimation. This study aimed to compare several canopy extraction methodologies by utilizing a large database of UAV thermal images from a precision irrigation trial in a peach orchard. Canopy extraction using thermal images can be attained by purely statistical analysis (S), a combination of statistical and spatial analyses (SS), or by synchronizing thermal and RGB images, following RGB statistical analysis (RGBS). A quantitative comparison of these approaches in the context of water status estimation for precision irrigation is currently absent from the literature. Our main objective was to compare six different canopy extraction methods representing examples of the three approaches defined above: 1) Quartile (Q) (S approach); 2) 2-pixel erosion (2PE) (SS approach); 3) 5-pixel erosion (5PE) (SS approach); 4) Edge detection (ED) (SS approach); 5) Thermal image masking with excess green (ExG) 70 threshold (EXG70) (RGBS approach); 6) ExG Otsu threshold (EXGO) (RGBS approach). Ten high-resolution UAV thermal images were acquired in a 4 ha commercial peach orchard in northern Israel during growth stage III of 2019. A confusion matrix was built per image for each canopy extraction method and the accuracy and kappa values were evaluated.  Additionally, an experiment was performed in part of the orchard where three plots were irrigated by 150, 100, and 0% (for a minimum of three weeks) of reference evapotranspiration (ET0). Five trees were designated in each plot. A histogram analysis of these trees was performed, including the number of extracted canopy pixels in each plot. The degree to which canopy temperature was affected by the different extraction methods and the subsequent effect on the crop water stress index of the designated trees was assessed. The canopy extraction methods yielded substantial differences. The kappa value ranged from 0.55 (EXG70) to 0.91 (EXGO). The number of canopy pixels in the stressed 0% ET0 plot ranged from 1492 (5PE) to 5251 (EXGO). These differences can directly affect the accuracy of water status predictions. The precision agriculture toolbox could highly benefit from the above comparison in order to advance decision-making capabilities in complex orchard systems.

Keyword: remote sensing, statistical extraction, spatial extraction, confusion matrix, canopy pixels, crop water status
L. Katz    A. Ben-gal    I. Litaor    A. Naor    A. Peeters    E. Goldshtein    V. Alchanatis    Y. Cohen    Proximal and Remote Sensing of Soil and Crop (including Phenotyping)    Oral    2022
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