Document detail
ID

oai:pubmedcentral.nih.gov:9715...

Topic
Research Article
Author
Li, Yibai Cao, Guangqiao Liu, Dong Zhang, Jinlong Li, Liang Chen, Cong
Langue
en
Editor

Hindawi

Category

Computational Intelligence and Neuroscience

Year

2022

listing date

12/12/2022

Keywords
operations stages flowering multispectral growth prevention protection regression plant information model
Metrics

Abstract

The heading and flowering stages are crucial for wheat growth and should be used for fusarium head blight (FHB) and other plant prevention operations.

Rapid and accurate monitoring of wheat growth in hilly areas is critical for determining plant protection operations and strategies.

Currently, the operation time for FHB prevention and plant protection is primarily determined by manual tour inspection of plant growth, which has the disadvantages of low information gathering and subjectivity.

In this study, an unmanned aerial vehicle (UAV) equipped with a multispectral camera was used to collect wheat canopy multispectral images and heading rate information during the heading and flowering stages in order to develop a method for detecting the appropriate time for preventive control of FHB.

A 1D convolutional neural network + decision tree model (1D CNN + DT) was designed.

All the multispectral information was input into the model for feature extraction and result regression.

The regression revealed that the coefficient of determination (R(2)) between multispectral information in the wheat canopy and the heading rate was 0.95, and the root mean square error of prediction (RMSE) was 0.24.

This result was superior to that obtained by directly inputting multispectral data into neural networks (NN) or by inputting multispectral data into NN via traditional VI calculation, support vector machines regression (SVR), or decision tree (DT).

On the basis of FHB prevention and control production guidelines and field research results, a discrimination model for FHB prevention and plant protection operation time was developed.

After the output values of the regression model were input into the discrimination model, a 97.50% precision was obtained.

The method proposed in this study can efficiently monitor the growth status of wheat during the heading and flowering stages and provide crop growth information for determining the timing and strategy of FHB prevention and plant protection operations.

Li, Yibai,Cao, Guangqiao,Liu, Dong,Zhang, Jinlong,Li, Liang,Chen, Cong, 2022, Determination of Wheat Heading Stage Using Convolutional Neural Networks on Multispectral UAV Imaging Data, Hindawi

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