Affiliation:
1. College of Agricultural Equipment Engineering, Henan University of Science and Technology, Luoyang 471023, China
2. Longmen Laboratory, Luoyang 471000, China
3. Caterpillar Mechanical Components, Inc., Wuxi 214000, China
4. Department of Bioproducts and Biosystems Engineering, University of Minnesota, Minneapolis, MN 55455-0213, USA
Abstract
Maize is one of the important grain crops grown globally, and growth will directly affect its yield and quality, so it is important to monitor maize growth efficiently and non-destructively. To facilitate the use of unmanned aerial vehicles (UAVs) for maize growth monitoring, comprehensive growth indicators for maize monitoring based on multispectral remote sensing imagery were established. First of all, multispectral image data of summer maize canopy were collected at the jointing stage, and meanwhile, leaf area index (LAI), relative chlorophyll content (SPAD), and plant height (VH) were measured. Then, the comprehensive growth monitoring indicators CGMICV and CGMICR for summer maize were constructed by the coefficient of variation method and the CRITIC weighting method. After that, the CGMICV and CGMICR prediction models were established by the partial least-squares (PLSR) and sparrow search optimization kernel extremum learning machine (SSA-KELM) using eight typical vegetation indices selected. Finally, a comparative analysis was performed using ground-truthing data, and the results show: (1) For CGMICV, the R2 and RMSE of the model built by SSA-KELM are 0.865 and 0.040, respectively. Compared to the model built by PLSR, R2 increased by 4.5%, while RMSE decreased by 0.3%. For CGMICR, the R2 and RMSE of the model built by SSA-KELM are 0.885 and 0.056, respectively. Compared to the other model, R2 increased by 4.6%, and RMSE decreased by 2.8%. (2) Compared to the models by single indicator, among the models constructed based on PLSR, the CGMICR model had the highest R2. In the models constructed based on SSA-KELM, the R2 of models by the CGMICR and CGMICV were larger than that of the models by SPAD (R2 = 0.837), while smaller than that of the models by LAI (R2 = 0.906) and models by VH (R2 = 0.902). In summary, the comprehensive growth monitoring indicators prediction model established in this paper is effective and can provide technical support for maize growth monitoring.
Funder
Major Science and Technology Project of Henan Province
Longmen Laboratory Major Projects
Postgraduate Education Reform Project of Henan Province
2020 Training Plan for Young Backbone Teachers in Colleges and Universities of Henan Province
Henan Provincial University Science and Technology Innovation Talent Support Program
Henan Provincial Science and Technology Research Project
Subject
Agronomy and Crop Science
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