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APA citation
Victor, B., Nibali, A., Newman, S. J., Coram, T., Pinto Espinosa, F., Reynolds, M. P., Furbank, R. T., & He, Z. (2024). High-throughput plot-level quantitative phenotyping using convolutional neural networks on very high-resolution satellite images. Remote Sensing, 16(2), 282. https://doi.org/10.3390/rs16020282
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To ensure global food security, crop breeders conduct extensive trials across various locations to discover new crop varieties that grow more robustly, have higher yields, and are resilient to local stress factors. These trials consist of thousands of plots, each containing a unique crop variety monitored at intervals during the growing season, requiring considerable manual effort. In this study, we combined satellite imagery and deep learning techniques to automatically collect plot-level phenotypes from plant breeding trials in South Australia and Sonora, Mexico. We implemented two novel methods, utilising state-of-the-art computer vision architectures, to predict plot-level phenotypes: flowering, canopy cover, greenness, height, biomass, and normalised difference vegetation index (NDVI). The first approach uses a classification model to predict for just the centred plot. The second approach predicts per-pixel and then aggregates predictions to determine a value per-plot. Using a modified ResNet18 model to predict the centred plot was found to be the most effective method. These results highlight the exciting potential for improving crop trials with remote sensing and machine learning.
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Journal
Remote Sensing
Journal volume
16
Journal issue
2
Article number
282
Place of Publication
Basel (Switzerland)
Publisher
MDPI