An active-optical reflectance sensor in-field testing for the prediction of winter wheat harvest metrics
Аутори
Kostić, MarkoLjubičić, Nataša
Aćin, Vladimir
Mirosavljević, Milan
Buđen, Maša
Rajković, Miloš
Dedović, Nebojša
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
The ambition of this study was to justify the possibility of wheat trait prediction using a normalized difference vegetation index (NDVI) from a newly developed Plant-O-Meter sensor. Acquired data from Plant-O-Meter was matched with GreenSeeker’s, which was designated as a reference. The experiment was carried out in the field during the 2022 growing season at the long-term experimental field. The experimental design included five different winter wheat genotypes and 20 different NPK fertilizer treatments. The GreenSeeker sensor always gave out NDVI values that were higher than those of the Plant-O-Meter by, on average, 0.029 (6.36%). The Plant-O-Meter sensor recorded similar NDVI values (94% of the variation is explained, P<0.01). The Plant-O-Meter’s NDVIs had a higher CV for different wheat varieties and different sensing dates. For almost all varieties, GreenSeeker exceeded Plant-O-Meter in predicting yields for the early (March 21st) and late (June 6th) growing seasons. NDVIGreenSe...eker data improved yield modeling performance by an average of 5.1% when compared to NDVIPlant-O-Meter; in terms of plant height prediction, NDVIGreenSeeker was 3% more accurate than NDVIPlant-O-Meter and no changes in spike length prediction were found. A compact, economical and user-friendly solution, the Plant-O-Meter, is straightforward to use in wheat breeding programs as well as mercantile wheat production.
Кључне речи:
multispectral sensors / NDVI / modelling / proximal sensors / cereals / wheat / harvest / metricsИзвор:
Journal of Agricultural Engineering, 2024, 55, 1, 1559-Издавач:
- Roma : Italian Society of Agricultural Engineering
Колекције
Институција/група
FiVeRTY - JOUR AU - Kostić, Marko AU - Ljubičić, Nataša AU - Aćin, Vladimir AU - Mirosavljević, Milan AU - Buđen, Maša AU - Rajković, Miloš AU - Dedović, Nebojša PY - 2024 UR - http://fiver.ifvcns.rs/handle/123456789/4551 AB - The ambition of this study was to justify the possibility of wheat trait prediction using a normalized difference vegetation index (NDVI) from a newly developed Plant-O-Meter sensor. Acquired data from Plant-O-Meter was matched with GreenSeeker’s, which was designated as a reference. The experiment was carried out in the field during the 2022 growing season at the long-term experimental field. The experimental design included five different winter wheat genotypes and 20 different NPK fertilizer treatments. The GreenSeeker sensor always gave out NDVI values that were higher than those of the Plant-O-Meter by, on average, 0.029 (6.36%). The Plant-O-Meter sensor recorded similar NDVI values (94% of the variation is explained, P<0.01). The Plant-O-Meter’s NDVIs had a higher CV for different wheat varieties and different sensing dates. For almost all varieties, GreenSeeker exceeded Plant-O-Meter in predicting yields for the early (March 21st) and late (June 6th) growing seasons. NDVIGreenSeeker data improved yield modeling performance by an average of 5.1% when compared to NDVIPlant-O-Meter; in terms of plant height prediction, NDVIGreenSeeker was 3% more accurate than NDVIPlant-O-Meter and no changes in spike length prediction were found. A compact, economical and user-friendly solution, the Plant-O-Meter, is straightforward to use in wheat breeding programs as well as mercantile wheat production. PB - Roma : Italian Society of Agricultural Engineering T2 - Journal of Agricultural Engineering T1 - An active-optical reflectance sensor in-field testing for the prediction of winter wheat harvest metrics IS - 1 SP - 1559 VL - 55 DO - 10.4081/jae.2024.1559 ER -
@article{ author = "Kostić, Marko and Ljubičić, Nataša and Aćin, Vladimir and Mirosavljević, Milan and Buđen, Maša and Rajković, Miloš and Dedović, Nebojša", year = "2024", abstract = "The ambition of this study was to justify the possibility of wheat trait prediction using a normalized difference vegetation index (NDVI) from a newly developed Plant-O-Meter sensor. Acquired data from Plant-O-Meter was matched with GreenSeeker’s, which was designated as a reference. The experiment was carried out in the field during the 2022 growing season at the long-term experimental field. The experimental design included five different winter wheat genotypes and 20 different NPK fertilizer treatments. The GreenSeeker sensor always gave out NDVI values that were higher than those of the Plant-O-Meter by, on average, 0.029 (6.36%). The Plant-O-Meter sensor recorded similar NDVI values (94% of the variation is explained, P<0.01). The Plant-O-Meter’s NDVIs had a higher CV for different wheat varieties and different sensing dates. For almost all varieties, GreenSeeker exceeded Plant-O-Meter in predicting yields for the early (March 21st) and late (June 6th) growing seasons. NDVIGreenSeeker data improved yield modeling performance by an average of 5.1% when compared to NDVIPlant-O-Meter; in terms of plant height prediction, NDVIGreenSeeker was 3% more accurate than NDVIPlant-O-Meter and no changes in spike length prediction were found. A compact, economical and user-friendly solution, the Plant-O-Meter, is straightforward to use in wheat breeding programs as well as mercantile wheat production.", publisher = "Roma : Italian Society of Agricultural Engineering", journal = "Journal of Agricultural Engineering", title = "An active-optical reflectance sensor in-field testing for the prediction of winter wheat harvest metrics", number = "1", pages = "1559", volume = "55", doi = "10.4081/jae.2024.1559" }
Kostić, M., Ljubičić, N., Aćin, V., Mirosavljević, M., Buđen, M., Rajković, M.,& Dedović, N.. (2024). An active-optical reflectance sensor in-field testing for the prediction of winter wheat harvest metrics. in Journal of Agricultural Engineering Roma : Italian Society of Agricultural Engineering., 55(1), 1559. https://doi.org/10.4081/jae.2024.1559
Kostić M, Ljubičić N, Aćin V, Mirosavljević M, Buđen M, Rajković M, Dedović N. An active-optical reflectance sensor in-field testing for the prediction of winter wheat harvest metrics. in Journal of Agricultural Engineering. 2024;55(1):1559. doi:10.4081/jae.2024.1559 .
Kostić, Marko, Ljubičić, Nataša, Aćin, Vladimir, Mirosavljević, Milan, Buđen, Maša, Rajković, Miloš, Dedović, Nebojša, "An active-optical reflectance sensor in-field testing for the prediction of winter wheat harvest metrics" in Journal of Agricultural Engineering, 55, no. 1 (2024):1559, https://doi.org/10.4081/jae.2024.1559 . .