Years Active: 2025
Title: Innovations in Drought Monitoring: The Contributions of Rongjie Gui
Introduction
Rongjie Gui is an innovative inventor based in Beijing, China. He has made significant contributions to the field of agricultural technology, particularly in drought monitoring for winter wheat. His work focuses on utilizing advanced remote sensing techniques to enhance agricultural productivity and sustainability.
Latest Patents
Rongjie Gui holds a patent for a "Rapid drought monitoring and identification method for winter wheat based on UAV measurements of leaf area index." This innovative method involves several key steps. First, it obtains multispectral images and ground-measured Leaf Area Index (LAI) through UAV-based multi-payload low-altitude remote sensing technology. It then calculates various vegetation indices, including Normalized Difference Vegetation Index (NDVI) and Enhanced Vegetation Index (EVI). The next step involves establishing regression equations between the calculated vegetation indices and measured LAI for different growth stages. The optimal model equation for each growth stage is selected to invert the LAI of winter wheat at various growth stages. Finally, the method calibrates the LAI thresholds for different drought stress levels, allowing for real-time monitoring and assessment of drought conditions.
Career Highlights
Rongjie Gui's career is marked by his dedication to improving agricultural practices through technology. His innovative approach to drought monitoring has the potential to significantly impact winter wheat farming, providing farmers with the tools they need to make informed decisions regarding irrigation and crop management.
Collaborations
Rongjie Gui has collaborated with notable colleagues, including Wenlong Song and Hongjie Liu. Their combined expertise has contributed to the development and refinement of his patented methods.
Conclusion
Rongjie Gui's work exemplifies the intersection of technology and agriculture, showcasing how innovative methods can address critical challenges in farming. His contributions to drought monitoring are paving the way for more efficient agricultural practices and improved crop resilience.