Papers

3

Total Citations

30

H-Index

3

About

Ke‑Li Wu is a leading figure in microwave filter engineering, whose work bridges advanced numerical methods and practical automation for high‑performance communication systems. His core research focuses on coupling matrix synthesis, filter tuning automation, and the statistical optimization of microwave bandpass filters. Wu’s most influential contribution is a direct preconditioner for coupling matrix reconfiguration using the coefficient‑parameter continuation method, enabling efficient synthesis and model extraction even for filters with irregular couplings—a paper that has garnered 23 citations since 2021. He has also pioneered the application of hybrid genetic algorithms for robot‑assisted automatic tuning of microwave filters, addressing the critical challenge of generating template matrices that satisfy specifications while accommodating parasitic couplings and tuning‑screw limits. Most recently, Wu introduced the concept of statistical synthesis of optimal coupling matrices, designed for mass production by minimizing sensitivity and maximizing tunability. His work is essential for advancing the reliability and manufacturability of next‑generation wireless infrastructure, making him a key innovator in both filter theory and industrial automation.

Research Focus

Key Achievements

3
H-Index
3
Papers
30
Total Citations
10
Avg Citations/Paper
🏆 Most Cited Paper
A Direct Preconditioner for Coupling Matrix Reconfiguration of Bandpass Filters With Irregular Couplings Using Continuation Method
23 citations · 2021
📈 Most Prolific Year: 2021 (1 Papers)
🤝 Key Collaborators: 5
🏛 Institutions: Chinese University of Hong Kong

Top Papers

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Key Collaborators

Contact & Links

Available for collaboration
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