Yield prediction through UAV-based multispectral imaging and deep learning in rice breeding trials
文献类型: 外文期刊
第一作者: Zhou, Hongkui
作者: Zhou, Hongkui;Lou, Weidong;Gu, Qing;Ye, Ziran;Hu, Hao;Zhang, Xiaobin;Huang, Fudeng
作者机构:
关键词: UAV; Yield prediction; Multispectral imaging; Deep learning; Rice breeding
期刊名称:AGRICULTURAL SYSTEMS ( 影响因子:6.1; 五年影响因子:7.0 )
ISSN: 0308-521X
年卷期: 2025 年 223 卷
页码:
收录情况: SCI
摘要: Context: Predicting crop yields with high precision and timeliness is essential for crop breeding, enabling the optimization of planting strategies and efficients resource allocation while ensuring food security. Current research in this field typically does not address the problem of yield prediction in the diverse context of breeding experiments involving numerous varieties. However, evaluating the performance of prediction models across multiple varieties is vital for further model refining and enhancing model robustness and adaptability. Objective: This study aims to evaluate the performance of feature- and image-based yield prediction models for yields with multiple varieties to compare their capabilities and determine an appropriate timing for early yield prediction. Methods: This study combines unmanned aerial vehicle (UAV)-based multispectral remote sensing imagery with machine learning and deep learning-based algorithms to develop rice yield prediction models across multiple varieties. The performances of both feature- and image-based models are evaluated. The feature-based models considered in this study include random forest (RF), deep neural network (DNN), and long short-term memory (LSTM) algorithms, and the image-based models are convolutional neural network (CNN) architectures, including both two-dimensional (2D) and three-dimensional (3D) CNN models. To assess the performance of the multi-variety crop yield prediction models thoroughly, this study considers two sampling scenarios: stratified sampling and group sampling. Results and conclusions: The results show that the image-based deep learning models outperform the feature-based machine learning models, which indicates their superior robustness in multi-variety scenarios and highlights their significant potential of directly extracting spatiotemporal features from images for yield prediction. The results indicate that the multi-temporal 2D CNN model (i.e., the CNN-M2D model) can achieve the best yield prediction performance among all models, achieving RRMSE = 8.13 % and R2 = 0.73. The prediction results also demonstrate good consistency with the observed data, indicating an efficient capturing of spatial pattern variations in yield across different varieties. Based on the results, with the crops progressing along the growth stages, the accuracy of the yield prediction models improves gradually, achieving the best prediction performance during the flowering to grain-filling stage. Finally, according to the results, the optimal lead time for predicting rice yield is approximately one month before harvest. Significance: Our study can provide a reference for the research community in yield prediction and high-yield variety selection in breeding trials.
分类号:
- 相关文献
作者其他论文 更多>>
-
Characteristics of compound heat and drought events during the spring maize growing season in Northeast China Based on a novel daily-scale analysis framework
作者:Yang, Jianhua;Wu, Jianjun;Zhang, Zhenqing;Yang, Jianhua;Wu, Jianjun;Zhang, Zhenqing;Zhang, Ruilin;Wu, Jianjun;Zhou, Lei;Zhou, Hongkui
关键词:CHDEs; Daily-scale Analysis Method; Effective Precipitation; Spring Maize; Northeast China
-
Impact of Coastal Squeeze Induced by Erosion and Land Reclamation on Salt Marsh Wetlands
作者:Zhang, Guangzhi;Gu, Jiali;Sun, Maoming;Shao, Jie;Dong, Weiliang;Liang, Liang;Zeng, Jian;Zhang, Guangzhi;Gu, Jiali;Sun, Maoming;Shao, Jie;Dong, Weiliang;Liang, Liang;Zeng, Jian;Hu, Hao
关键词:erosion; salt marsh; reclamation; coastline; coastal squeeze; Jiangsu
-
The processing quality characteristics, freeze-thaw stability, and retrogradation properties of rice cakes affected by four hydrocolloids: Xanthan gum, guar gum, carrageenan, and konjac gum
作者:Huang, Fang;Hu, Hao;Ouyang, Kefan;Zhang, Qin;Li, Genyuan;Zhong, Junzhen;Zhao, Qiang;Huang, Fang;Hu, Hao;Ouyang, Kefan;Zhang, Qin;Li, Genyuan;Zhong, Junzhen;Zhao, Qiang;Yu, Liqin
关键词:Rice cakes; Quality characteristics; Retrogradation properties
-
Quantifying tree-level peach flowering dynamics using UAV imagery and an optimized instance segmentation model
作者:Gu, Qing;Cheng, Jiayu;Lou, Weidong;Zhang, Xiaobin;Zhang, Minghao;Li, Xiongwei;Jackson, Robert;Ju, Lei;Zhou, Ji;Chen, Miaojin
关键词:Peach flowering; Phenotype; Unmanned aerial vehicle; Fruit breeding; Instance segmentation
-
Advanced data-driven interpretable analysis for predicting resistant starch content in rice using NIR spectroscopy
作者:Zhu, Qian;Gao, Yuanliang;Yang, Bang;Zhao, Kangjian;Wang, Zhihui;Zhao, Qian;Huang, Jun;Huang, Fudeng;Cheng, Fangmin
关键词:Resistant starch; Near-infrared (NIR) spectroscopy; Convolutional neural networks (CNN); SHapley additive exPlanations (SHAP); Model interpretability
-
Developing fluorescence hyperspectral imaging methods for non-invasive detection of herbicide safeners action mechanism and effectiveness
作者:Chu, Hangjian;Zhao, Yiying;Zhang, Xiaobin;Chu, Hangjian;Gouda, Mostafa;He, Yong;Li, Xiaoli;Liu, Yufei;Gouda, Mostafa;Li, Yu
关键词:Visible/near-infrared hyperspectral imaging; Chlorophyll a fluorescence; Chemometric analysis; Machine learning models
-
Characterizing Chinese saffron Origin, Age and grade using VNlR hyperspectral imaging and Machine learning
作者:Wu, Jiahui;Xu, Xinyue;Feng, Peishi;Wang, Ping;Wu, Jiahui;Nie, Jing;Xu, Xinyue;Li, Chunlin;Mei, Hanyi;Rogers, Karyne M.;Yuan, Yuwei;Wu, Jiahui;Nie, Jing;Xu, Xinyue;Li, Chunlin;Mei, Hanyi;Rogers, Karyne M.;Yuan, Yuwei;Hu, Hao;Zhou, Hongkui;Rogers, Karyne M.;Wang, Ping
关键词:Saffron; Geographical origin; Hyperspectral imaging; Machine learning
