Maturity Prediction in Soybean Breeding Using Aerial Images and the Random Forest Machine Learning Algorithm

Research output: Contribution to journalArticlepeer-review

Abstract

Several studies have used aerial images to predict physiological maturity (R8 stage) in soybeans (Glycine max (L.) Merr.). However, information for making predictions in the current growing season using models fitted in previous years is still necessary. Using the Random Forest machine learning algorithm and time series of RGB (red, green, blue) and multispectral images taken from a drone, this work aimed to study, in three breeding experiments of plant rows, how maturity predictions are impacted by a number of factors. These include the type of camera used, the number and time between flights, and whether models fitted with data obtained in one or more environments can be used to make accurate predictions in an independent environment. Applying principal component analysis (PCA), it was found that compared to the full set of 8–10 flights (R2 = 0.91–0.94; RMSE = 1.8–1.3 days), using data from three to five fights before harvest had almost no effect on the prediction error (RMSE increase ~0.1 days). Similar prediction accuracy was achieved using either a multispectral or an affordable RGB camera, and the excess green index (ExG) was found to be the important feature in making predictions. Using a model trained with data from two previous years and using fielding notes from check cultivars planted in the test season, the R8 stage was predicted, in 2020, with an error of 2.1 days. Periodically adjusted models could help soybean breeding programs save time when characterizing the cycle length of thousands of plant rows each season.

Original languageEnglish (US)
Article number4343
JournalRemote Sensing
Volume16
Issue number23
Early online dateNov 21 2024
DOIs
StatePublished - Dec 2024

Keywords

  • agriculture
  • plant breeding
  • high-throughput phenotyping
  • UAV
  • physiological maturity
  • machine learning
  • vegetation indices

ASJC Scopus subject areas

  • General Earth and Planetary Sciences

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