Griselda R. R. Bóbeda, S. Mazza, Noelia Rico, Cristian F. Brenes Pérez, J. E. Gaiad, Susana Irene Díaz Rodríguez
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引用次数: 0
摘要
柑橘生产早期收获的准确估计模型通常涉及昂贵的变量。这项研究工作的目标是开发一个模型,使用低成本特征提供早期和准确的收获估计。由于原始数据可能来自树木测量、气象站或卫星,它们的成本各不相同。研究的果园包括位于阿根廷东北部的柑橘(Citrus reticulata x C. sinensis)和甜橙(C. sinensis)。机器学习方法结合不同的数据集进行了测试,以获得最准确的收获估计。最后的模型是基于支持向量机的低成本变量,如物种、年龄、灌溉、2月和12月的红色和近红外反射率、12月的NDVI、成熟期间的降雨和果实生长期间的湿度。亮点:2月和12月的红色和近红外反射率是预测橙子收获的有用值。支持向量机是一种有效的收成预测方法。本文提出了一种基于排序的方法来确定最能预测橙子产量的变量。
About identification of features that affect the estimation of citrus harvest
Accurate models for early harvest estimation in citrus production generally involve expensive variables. The goal of this research work was to develop a model to provide early and accurate estimations of harvest using low-cost features. Given the original data may derive from tree measurements, meteorological stations, or satellites, they have varied costs. The studied orchards included tangerines (Citrus reticulata x C. sinensis) and sweet oranges (C. sinensis) located in northeastern Argentina. Machine learning methods combined with different datasets were tested to obtain the most accurate harvest estimation. The final model is based on support vector machines with low-cost variables like species, age, irrigation, red and near-infrared reflectance in February and December, NDVI in December, rain during ripening, and humidity during fruit growth.
Highlights:
Red and near-infrared reflectance in February and December are helpful values to predict orange harvest.
SVM is an efficient method to predict harvest.
A ranking method to A ranking-based method has been developed to identify the variables that best predict orange production.
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