Company Filing History:
Years Active: 2023
Title: Guanci Yang: Innovator in Synchronization Control Methods
Introduction
Guanci Yang is a prominent inventor based in Guiyang, China. He has made significant contributions to the field of generator technology, particularly in the area of synchronization control methods. His innovative approach has led to the development of a unique patent that addresses complex challenges in generator synchronization.
Latest Patents
Guanci Yang holds a patent titled "Fuzzy finite-time optimal synchronization control method for fractional-order permanent magnet synchronous generator." This invention belongs to the technical field of generators and establishes a synchronization model between fractional-order driving and driven permanent magnet synchronous generators with capacitance-resistance coupling. The dynamic analysis of this system reveals rich dynamic behaviors, including chaotic oscillation. Furthermore, a numerical method provides stability and instability boundaries. Under the framework of fractional-order backstepping control theory, Yang's fuzzy finite-time optimal synchronous control scheme integrates a hierarchical type-2 fuzzy neural network, a finite-time command filter, and a finite-time prescribed performance function.
Career Highlights
Guanci Yang is affiliated with Guizhou University, where he continues to advance research in generator technology. His work has garnered attention for its innovative approach and practical applications in the field. Yang's contributions are vital for enhancing the performance and stability of permanent magnet synchronous generators.
Collaborations
Yang collaborates with notable colleagues, including Shaohua Luo and Shaobo Li. Their combined expertise fosters a productive research environment that drives innovation in synchronization control methods.
Conclusion
Guanci Yang's work exemplifies the intersection of theoretical research and practical application in generator technology. His contributions significantly enhance the understanding and functionality of synchronization control methods.