Zhang Juanjuan, Cheng Tao, Guo Wei, Xu Xin, Qiao Hongbo, Xie Yimin, Ma Xinming
Science College of Information and Management, Henan Agricultural University, #63 Nongye Road, Zhengzhou, 450002, Henan, China.
Collaborative Innovation Center of Henan Grain Crops, Henan Agricultural University, #63 Nongye Road, Zhengzhou, 450002, Henan, China.
Plant Methods. 2021 May 3;17(1):49. doi: 10.1186/s13007-021-00750-5.
To accurately estimate winter wheat leaf area index (LAI) using unmanned aerial vehicle (UAV) hyperspectral imagery is crucial for crop growth monitoring, fertilization management, and development of precision agriculture.
The UAV hyperspectral imaging data, Analytical Spectral Devices (ASD) data, and LAI were simultaneously obtained at main growth stages (jointing stage, booting stage, and filling stage) of various winter wheat varieties under various nitrogen fertilizer treatments. The characteristic bands related to LAI were extracted from UAV hyperspectral data with different algorithms including first derivative (FD), successive projections algorithm (SPA), competitive adaptive reweighed sampling (CARS), and competitive adaptive reweighed sampling combined with successive projections algorithm (CARS_SPA). Furthermore, three modeling machine learning methods including partial least squares regression (PLSR), support vector machine regression (SVR), and extreme gradient boosting (Xgboost) were used to build LAI estimation models.
The results show that the correlation coefficient between UAV and ASD hyperspectral data is greater than 0.99, indicating the UAV data can be used for estimation of wheat growth information. The LAI bands selected by using different algorithms were slightly different among the 15 models built in this study. The Xgboost model using nine consecutive characteristic bands selected by CARS_SPA algorithm as input was proved to have the best performance. This model yielded identical results of coefficient of determination (0.89) for both calibration set and validation set, indicating a high accuracy of this model.
The Xgboost modeling method in combine with CARS_SPA algorithm can reduce input variables and improve the efficiency of model operation. The results provide reference and technical support for nondestructive and rapid estimation of winter wheat LAI by using UAV.
利用无人机(UAV)高光谱图像准确估算冬小麦叶面积指数(LAI)对于作物生长监测、施肥管理以及精准农业发展至关重要。
在不同氮肥处理下,于各冬小麦品种的主要生长阶段(拔节期、孕穗期和灌浆期)同步获取无人机高光谱成像数据、分析光谱设备(ASD)数据以及LAI。采用包括一阶导数(FD)、连续投影算法(SPA)、竞争性自适应重加权采样(CARS)以及竞争性自适应重加权采样结合连续投影算法(CARS_SPA)等不同算法,从无人机高光谱数据中提取与LAI相关的特征波段。此外,运用偏最小二乘回归(PLSR)、支持向量机回归(SVR)和极端梯度提升(Xgboost)三种机器学习建模方法构建LAI估算模型。
结果表明,无人机与ASD高光谱数据之间的相关系数大于0.99,表明无人机数据可用于小麦生长信息的估算。本研究构建的15个模型中,采用不同算法选择的LAI波段略有差异。以CARS_SPA算法选择的9个连续特征波段作为输入的Xgboost模型被证明具有最佳性能。该模型在校准集和验证集上的决定系数均为0.89,表明该模型具有较高的准确性。
Xgboost建模方法与CARS_SPA算法相结合可减少输入变量,提高模型运算效率。研究结果为利用无人机无损快速估算冬小麦LAI提供了参考和技术支持。
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