Estimates of rice lodging using indices derived from UAV visible and thermal infrared images. Liu, T., Li, R., Zhong, X., Jiang, M., Jin, X., Zhou, P., Liu, S., Sun, C., & Guo, W. Agricultural and Forest Meteorology, 252:144-154, Elsevier, 4, 2018.
Estimates of rice lodging using indices derived from UAV visible and thermal infrared images [link]Paper  doi  abstract   bibtex   
Rice lodging not only causes difficulty in harvest operations, but also drastically reduces yield. Rice lodging assessment contributes greatly to rice plantation and crop field management. In this study, we collected visible and thermal infrared images with an unmanned aerial vehicle. Then, based on hybrid image analysis and field investigation, we established a comprehensive rice lodging recognition model using a particle swarm optimization and support vector machine algorithm. The results showed that color and texture features were different between lodged and non-lodged rice plants. Moreover, the temperature was distinct between lodging and non-lodging areas, with lodged rice having higher canopy temperature. The developed model based on the visible and thermal infrared images was validated using different Indica and Japonica rice cultivars. The model had a false positives rate and false negatives rate of less than 10%, and estimated lodging rate with an R2 greater than 0.9. These results indicated that combination of visible and thermal infrared images feature significantly increased the rice lodging recognition accuracy. The developed model can be used to monitor rice lodging and estimate the lodging rate.
@article{Liu2018,
   abstract = {Rice lodging not only causes difficulty in harvest operations, but also drastically reduces yield. Rice lodging assessment contributes greatly to rice plantation and crop field management. In this study, we collected visible and thermal infrared images with an unmanned aerial vehicle. Then, based on hybrid image analysis and field investigation, we established a comprehensive rice lodging recognition model using a particle swarm optimization and support vector machine algorithm. The results showed that color and texture features were different between lodged and non-lodged rice plants. Moreover, the temperature was distinct between lodging and non-lodging areas, with lodged rice having higher canopy temperature. The developed model based on the visible and thermal infrared images was validated using different Indica and Japonica rice cultivars. The model had a false positives rate and false negatives rate of less than 10%, and estimated lodging rate with an R2 greater than 0.9. These results indicated that combination of visible and thermal infrared images feature significantly increased the rice lodging recognition accuracy. The developed model can be used to monitor rice lodging and estimate the lodging rate.},
   author = {Tao Liu and Rui Li and Xiaochun Zhong and Min Jiang and Xiuliang Jin and Ping Zhou and Shengping Liu and Chengming Sun and Wenshan Guo},
   doi = {10.1016/j.agrformet.2018.01.021},
   issn = {01681923},
   journal = {Agricultural and Forest Meteorology},
   keywords = {Rice lodging,Support vector machine,Thermal infrared imaging,Unmanned aerial vehicle,Visible light-based imaging},
   month = {4},
   pages = {144-154},
   publisher = {Elsevier},
   title = {Estimates of rice lodging using indices derived from UAV visible and thermal infrared images},
   volume = {252},
   url = {https://linkinghub.elsevier.com/retrieve/pii/S0168192318300212},
   year = {2018}
}
Downloads: 0
About
Documentation
Keywords
Search
Users
Terms and Conditions of Use
Privacy Policy
Sitemap
© BibBase.org 2021