Li-Hsing Ku
Papers
2
Total Citations
4
H-Index
2
About
Li-Hsing Ku is a researcher specializing in the design and control of permanent magnet synchronous motors (PMSMs) for high-performance servo applications, with a particular focus on flux weakening and self-sensing capabilities. His work addresses critical challenges in automation and robotics, where motors must deliver precise motion control, high peak torque, and rapid acceleration. Ku’s major contributions include the comparative analysis of symmetric and asymmetric rotor designs for flux weakening surface-mounted PMSMs (FW-SPMSMs), demonstrating how rotor geometry influences self-sensing properties and power conversion efficiency. His studies show that asymmetric rotors can enhance sensorless control performance, a key enabler for reducing cost and complexity in industrial servo systems. While his most-cited papers from 2019 each have 2 citations, they represent foundational steps in optimizing motor topologies for advanced servo drives. Ku’s research is notable for bridging electromagnetic design with practical control challenges, offering insights that support the development of more compact, efficient, and reliable servo motors for next-generation automation and robotic platforms.
Research Focus
Key Achievements
Top Papers
- 1
- 2