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Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
by Cheng, Qian , Mercatoris, Benoît , Yao, Hongxun , Shen, Yulin , Kwan, Paul , Guo, Leifeng , Cao, Zhen
in Accuracy / Agricultural management / Agricultural production / agriculture / Agriculture & agronomie / Agriculture & agronomy / Agronomy and Crop Science / Biomass / Cameras / canopy / China / Computer science / Corn / Crop yield / Engineering, computing & technology / field experimentation / Food Science / grain yield / Ground stations / Infrared cameras / Infrared imagery / Ingénierie, informatique & technologie / Irrigation / Life sciences / Long short-term memory / long short-term memory network / multispectral / multispectral imagery / Neural networks / Photogrammetry / Plant Science / prediction / Predictions / Remote sensing / Sciences du vivant / Sciences informatiques / Sensors / Support vector machines / thermal infrared / time series analysis / Triticum aestivum / UAV / Unmanned aerial vehicles / Vegetation / Water shortages / Water stress / Wheat / wheat yield / Winter wheat / yield forecasting
2022
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Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
by Cheng, Qian , Mercatoris, Benoît , Yao, Hongxun , Shen, Yulin , Kwan, Paul , Guo, Leifeng , Cao, Zhen
in Accuracy / Agricultural management / Agricultural production / agriculture / Agriculture & agronomie / Agriculture & agronomy / Agronomy and Crop Science / Biomass / Cameras / canopy / China / Computer science / Corn / Crop yield / Engineering, computing & technology / field experimentation / Food Science / grain yield / Ground stations / Infrared cameras / Infrared imagery / Ingénierie, informatique & technologie / Irrigation / Life sciences / Long short-term memory / long short-term memory network / multispectral / multispectral imagery / Neural networks / Photogrammetry / Plant Science / prediction / Predictions / Remote sensing / Sciences du vivant / Sciences informatiques / Sensors / Support vector machines / thermal infrared / time series analysis / Triticum aestivum / UAV / Unmanned aerial vehicles / Vegetation / Water shortages / Water stress / Wheat / wheat yield / Winter wheat / yield forecasting
2022
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Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
by Cheng, Qian , Mercatoris, Benoît , Yao, Hongxun , Shen, Yulin , Kwan, Paul , Guo, Leifeng , Cao, Zhen
in Accuracy / Agricultural management / Agricultural production / agriculture / Agriculture & agronomie / Agriculture & agronomy / Agronomy and Crop Science / Biomass / Cameras / canopy / China / Computer science / Corn / Crop yield / Engineering, computing & technology / field experimentation / Food Science / grain yield / Ground stations / Infrared cameras / Infrared imagery / Ingénierie, informatique & technologie / Irrigation / Life sciences / Long short-term memory / long short-term memory network / multispectral / multispectral imagery / Neural networks / Photogrammetry / Plant Science / prediction / Predictions / Remote sensing / Sciences du vivant / Sciences informatiques / Sensors / Support vector machines / thermal infrared / time series analysis / Triticum aestivum / UAV / Unmanned aerial vehicles / Vegetation / Water shortages / Water stress / Wheat / wheat yield / Winter wheat / yield forecasting
2022

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Mohammed Bin Rashid Library /
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Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery
Journal Article

Improving Wheat Yield Prediction Accuracy Using LSTM-RF Framework Based on UAV Thermal Infrared and Multispectral Imagery

Cheng, Qian,
Mercatoris, Benoît,
Yao, Hongxun,
Shen, Yulin,
Kwan, Paul,
Guo, Leifeng,
Cao, Zhen
2022
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Overview
Yield prediction is of great significance in agricultural production. Remote sensing technology based on unmanned aerial vehicles (UAVs) offers the capacity of non-intrusive crop yield prediction with low cost and high throughput. In this study, a winter wheat field experiment with three levels of irrigation (T1 = 240 mm, T2 = 190 mm, T3 = 145 mm) was conducted in Henan province. Multispectral vegetation indices (VIs) and canopy water stress indices (CWSI) were obtained using an UAV equipped with multispectral and thermal infrared cameras. A framework combining a long short-term memory neural network and random forest (LSTM-RF) was proposed for predicting wheat yield using VIs and CWSI from multi-growth stages as predictors. Validation results showed that the R2 of 0.61 and the RMSE value of 878.98 kg/ha was achieved in predicting grain yield using LSTM. LSTM-RF model obtained better prediction results compared to the LSTM with n R2 of 0.78 and RMSE of 684.1 kg/ha, which is equivalent to a 22% reduction in RMSE. The results showed that LSTM-RF considered both the time-series characteristics of the winter wheat growth process and the non-linear characteristics between remote sensing data and crop yield data, providing an alternative for accurate yield prediction in modern agricultural management.
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Publisher
MDPI AG,MDPI
Subject

Accuracy

/ Agricultural management

/ Agricultural production

/ agriculture

/ Agriculture & agronomie

/ Agriculture & agronomy

/ Agronomy and Crop Science

/ Biomass

/ Cameras

/ canopy

/ China

/ Computer science

/ Corn

/ Crop yield

/ Engineering, computing & technology

/ field experimentation

/ Food Science

/ grain yield

/ Ground stations

/ Infrared cameras

/ Infrared imagery

/ Ingénierie, informatique & technologie

/ Irrigation

/ Life sciences

/ Long short-term memory

/ long short-term memory network

/ multispectral

/ multispectral imagery

/ Neural networks

/ Photogrammetry

/ Plant Science

/ prediction

/ Predictions

/ Remote sensing

/ Sciences du vivant

/ Sciences informatiques

/ Sensors

/ Support vector machines

/ thermal infrared

/ time series analysis

/ Triticum aestivum

/ UAV

/ Unmanned aerial vehicles

/ Vegetation

/ Water shortages

/ Water stress

/ Wheat

/ wheat yield

/ Winter wheat

/ yield forecasting

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