Company Filing History:
Years Active: 2023
Title: **Guiyang Su: Innovator in Thunderstorm Gale Early-Warning Technology**
Introduction
Guiyang Su is an accomplished inventor based in Hangzhou, China. He has made significant contributions to the field of meteorological technology, particularly in early-warning systems for thunderstorms. His innovative approaches have the potential to enhance public safety and improve weather forecasting accuracy.
Latest Patents
Guiyang Su holds a patent for a "Thunderstorm Gale Early-Warning Method, System, Equipment, and Terminal." This invention falls under the category of nowcasting early-warning technology and introduces a method that preprocesses single radar data to identify potential areas where thunderstorms may occur. By employing a thunderstorm gale parameter model, this method allows for real-time extrapolation for one hour ahead, significantly enhancing the accuracy and timeliness of thunderstorm gale warnings compared to existing methods. The technology leverages the capabilities of dual polarization radar for better identification of potential threats, thus safeguarding communities at risk.
Career Highlights
Guiyang Su is currently associated with the Zhejiang Meteorological Observatory, where he applies his expertise in meteorology and radar technology to develop advanced forecasting solutions. His deep understanding of weather patterns and cutting-edge technology has positioned him as a leading figure in the field.
Collaborations
Throughout his career, Guiyang has collaborated with talented colleagues such as Ling Luo and Xuanxuan Huang. These collaborations have been instrumental in refining his innovations and pushing the boundaries of what is possible in early-warning systems for natural disasters.
Conclusion
Guiyang Su exemplifies the innovative spirit essential for addressing the challenges posed by severe weather. His contributions to thunderstorm gale early-warning technology not only reflect his dedication as an inventor but also underscore the importance of advancements in meteorological science for enhancing public safety and resilience against natural hazards.