Estimation of winter-wheat above-ground biomass using the wavelet analysis of unmanned aerial vehicle-based digital images and hyperspectral crop canopy images
文献类型: 外文期刊
作者: Yue, Jibo 1 ; Zhou, Chengquan 3 ; Guo, Wei 1 ; Feng, Haikuan 3 ; Xu, Kaijian 5 ;
作者机构: 1.Henan Agr Univ, Coll Informat & Management Sci, 63 Agr Rd, Zhengzhou 450002, Henan, Peoples R China
2.Nanjing Univ, Int Inst Earth Syst Sci, Nanjing, Peoples R China
3.Beijing Res Ctr Informat Technol Agr, Minist Agr, Key Lab Quantitat Remote Sensing Agr, Beijing, Peoples R China
4.Zhejiang Acad Agr Sci, Inst Agr Equipment, Hangzhou, Peoples R China
5.Hefei Univ Technol, Sch Resources & Environm Engn, Hefei, Peoples R China
期刊名称:INTERNATIONAL JOURNAL OF REMOTE SENSING ( 影响因子:3.151; 五年影响因子:3.266 )
ISSN: 0143-1161
年卷期:
页码:
收录情况: SCI
摘要: The crop above-ground biomass (AGB) is critically important for monitoring crop growth, and its accurate estimation can be used by agricultural managers to improve farmland management and to predict crop grain yield. Many studies have shown that models for the estimation of AGB for multiple crop growth stages based on optical remote sensing spectral indices (SIs) often underestimate the crop AGB in later growth stages due to saturation problems. The purpose of this study was to estimate winter-wheat AGB using (i) high-frequency information obtained from the image wavelet decomposition (IWD) of unmanned aerial vehicle (UAV)-based digital images of winter-wheat canopy (i.e. high-frequency IWD information), and (ii) variables obtained from the continuous wavelet transform (CWT) of hyperspectral images of winter-wheat canopy (i.e. hyperspectral CWT variables). Digital and hyperspectral images were acquired using a digital camera and an imaging spectrometer, both mounted on a UAV. Unlike optical SIs, high-frequency IWD information and hyperspectral CWT variables may not be limited by saturation problems for high winter-wheat canopy cover. Our results indicate that high-frequency IWD information and hyperspectral CWT variables both increase (decrease) with increasing winter-wheat AGB. A multiple linear stepwise regression technique was used to analyse the performance of (1) SIs, (2) CWT, (3) IWD, (4) SIs + CWT, (5) SIs + IWD, (6) CWT + IWD, and (7) SIs + CWT + IWD, for estimating AGB. Our results indicate that: (i) the method based only on optical SIs may not support the estimation of winter-wheat AGB for multiple growth stages (SIs: coefficient of determination (R (2)) = 0.62, mean absolute error (MAE) = 1.30 t ha(-1), root-mean-square error (RMSE) = 1.63 t ha(-1)); (ii) the combined use of the IWD of digital images of winter-wheat canopy and the CWT of hyperspectral images of crop canopy can support the estimation of winter-wheat AGB for multiple growth stages (CWT + IWD: R (2) = 0.85, MAE = 0.79 t ha(-1), RMSE = 1.01 t ha(-1)), including later growth stages; and (iii) the combined use of SIs and the IWD of digital images of winter-wheat canopy can improve the estimation accuracy of winter-wheat AGB (SIs + IWD: R (2) = 0.80, MAE = 0.93 t ha(-1), RMSE = 1.22 t ha(-1)), which may indicate that imaging spectrometers and cheap digital cameras have distinct advantages and can both be used to obtain AGB estimates using different methods. This work provides a new perspective on the use of high-frequency IWD information, hyperspectral CWT variables, and their combination to estimate AGB for multiple crop growth stages.
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