Improved Leaf Chlorophyll Content Estimation with Deep Learning and Feature Optimization Using Hyperspectral Measurements  

作　　者：Xianfeng Zhou Ruiju Sun Zhaojie Zhang Yuanyuan Song Lijiao Jin Lin Yuan 

机构地区：[1]Zhejiang Zhengyuan Geomatics Co.,Ltd.,Huzhou,313203,China [2]School of Artificial Intelligence,Hangzhou Dianzi University,Hangzhou,310018,China [3]School of Computer Science and Technology,Zhejiang University of Water Resources and Electric Power,Hangzhou,310018,China

出　　处：《Phyton-International Journal of Experimental Botany》2025年第2期503-519,共17页国际实验植物学杂志(英文)

基　　金：supported by the National Natural Science Foundation of China(Project Nos.41901268 and 42371385);Zhejiang Provincial Natural Science Foundation of China(Grant No.LTGN23D010002).

摘　　要：An accurate and robust estimation of leaf chlorophyll content(LCC)is very important to better know the process of material and energy exchange between plants and the environment.Compared with traditional remote sensing methods,abundant research has made progress in agronomic parameter retrieval using different CNN frameworks.Nevertheless,limited reports have paid attention to the problems,i.e.,limited measured data,hyperspectral redundancy,and model convergence issues,when concerning CNN models for parameter estimation.Therefore,the present study tried to analyze the effects of synthetic data size expansion employing aGaussian process regression(GPR)model for simulation,input feature optimization using different spectral indices with a competitive adaptive reweighted sampling(CARS)algorithm,model convergence issue combining transfer learning(TL)method for accurate and robust estimation of plant LCC with a deep learning framework(i.e.,ResNet-18)using the ANGERS data(a public dataset containing foliar biochemical parameters spectral data for various plant types).Results showed that ResNet-18 training using 800 simulated reflectances(400–1000 nm)and partial ANGERS data exhibited better results,with an R^(2)value of 0.89,an RMSE value of 6.98μg/cm^(2),an RPD value of 3.70,for LCC retrieval using remanent ANGERS data,thanmodels that using simulations with different amounts of data.The estimation accuracies obviously increased when nine spectral indexes,selected from the CARS algorithm,were used as model input for running the ResNet-18 model(R^(2)=0.96,RMSE=4.65μg/cm^(2),RPD=4.81).In addition,coupling transfer learning with ResNet-18 improved the model convergence rate,and TL-ResNet-18 exhibited accurate results for LCC estimation(R^(2)=0.94,RMSE=5.14μg/cm^(2),RPD=4.65).These results suggest that adding appropriate synthetic data,input features optimization,and transfer learning techniques could be effectively used for improved LCC retrieval with a ResNet-18 model.

关 键 词：Convolutional neural network gaussian process regression spectral index competitive adaptive reweighted sampling transfer learning leaf chlorophyll content 

分 类 号：O17[理学—数学]