A random forest ranking approach to predict yield in maize with uav-based vegetation spectral indices

•An approach to potentialize the Random Forest to predict maize-crop yield.•Random Forest algorithm performed better in tests with the ranking-based strategy.•Indices NDVI, NDRE, and GNDVI were that more contributed to maize yield prediction. Random Forest (RF) is a machine learning technique that h...

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Published in:Computers and electronics in agriculture 2020-11, Vol.178, p.105791, Article 105791
Main Authors: Marques Ramos, Ana Paula, Prado Osco, Lucas, Elis Garcia Furuya, Danielle, Nunes Gonçalves, Wesley, Cordeiro Santana, Dthenifer, Pereira Ribeiro Teodoro, Larissa, Antonio da Silva Junior, Carlos, Fernando Capristo-Silva, Guilherme, Li, Jonathan, Henrique Rojo Baio, Fábio, Marcato Junior, José, Eduardo Teodoro, Paulo, Pistori, Hemerson
Format: Article
Language:English
Subjects:
Agricultural management
Artificial neural networks
Correlation coefficients
Decision making
Decision trees
Feature extraction
Imagery
Machine learning
Multispectral images
Precision agriculture
Random Forest
Ranking
Regression analysis
Shallow learner
Support vector machines
Unmanned aerial vehicles
Vegetation
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Summary:•An approach to potentialize the Random Forest to predict maize-crop yield.•Random Forest algorithm performed better in tests with the ranking-based strategy.•Indices NDVI, NDRE, and GNDVI were that more contributed to maize yield prediction. Random Forest (RF) is a machine learning technique that has been proved to be highly accurate in several agricultural applications. However, to yield prediction, how much this technique may be improved with the adoption of a ranking-based strategy is still an unknown issue. Here we propose a ranking-based approach to potentialize the RF method for maize yield prediction. This approach is based on the correlation parameter of individual vegetation indices (VIs). The VIs were individually ranked based on a merit metric that measures the improvement on the Pearson’s correlation coefficient by using RF against a baseline method. As a result, only the most relevant VIs were considered as input features to the RF model. We used 33 VIs extracted from multispectral UAV-based (unmanned aerial vehicle) imagery. The multispectral data were generated with two different sensors: Sequoia and MicaSense; during the 2017/2018 and 2018/2019 crop seasons, respectively. Amongst all the evaluated indices, NDVI, NDRE, and GNDVI were the top three in the ranking-based analysis, and their combination with RF increased the maize yield prediction. Our approach also outperformed other known machine learning methods, like support vector machine and artificial neural network. Additive regression, using the RF as the base weak learner, provided a higher accuracy with a correlation coefficient and MAE (Mean Absolute Error) of 0.78 and 853.11 kg ha−1, respectively. We conclude that the ranking-based strategy of VIs is appropriate to predict maize yield using machine learning methods and data derived from multispectral images. We demonstrated that our approach reduces the number of VIs needed to determine a high accuracy and relative low MAE, and the approach may contribute to decision-making actions, resulting in accurate management of maize fields.
ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2020.105791