Company Filing History:
Years Active: 2021
Title: Ronald Plybon - Innovator in Prognostic Health Monitoring of Turbine Engines
Introduction
Ronald Plybon, an accomplished inventor based in Cincinnati, OH, has made significant contributions to the field of turbine engine health monitoring. His innovative approach focuses on methods and apparatus designed to enhance the reliability and performance of turbine engines, critical components in various industries.
Latest Patents
Plybon holds a patent for his invention titled "Methods and Apparatus for Prognostic Health Monitoring of a Turbine Engine." This patent outlines advanced techniques and systems for conducting prognostic health assessments of turbine engines. His patent describes an apparatus featuring a health quantifier calculator that utilizes computer-generated models to simulate and monitor the condition of turbine engines through sensor data analysis. The system generates comprehensive reports on asset health and offers recommendations for maintenance based on specific thresholds.
Career Highlights
As part of his career at General Electric Company, Ronald Plybon has demonstrated a commitment to innovation and excellence. His work in developing advanced health monitoring techniques exemplifies his role as a forward-thinking inventor, contributing to improved efficiency and safety in turbine engine operations.
Collaborations
Plybon collaborates with talented colleagues, including William Edwin Hurst and Mei Gao. Together, they leverage their diverse expertise to enhance the development of innovative technologies within the turbine engine sector, driving advancements that benefit the industry as a whole.
Conclusion
In summary, Ronald Plybon's contributions to the field of turbine engine health monitoring underscore his role as an influential inventor. His patented work at General Electric showcases his innovative spirit and dedication to improving the reliability and performance of vital technologies. As the industry continues to evolve, Plybon's advancements will undoubtedly play a key role in shaping the future of turbine engine technology.