Chih-Kung Lee

Chih-Kung Lee
李世光
Minister of Economic Affairs of the Republic of China
Assumed office
20 May 2016
Deputy Shen Jong-chin
Vice Yang Wei-fuu
Wang Mei-hua, Yang Wei-fuu
Preceded by John Deng
Personal details
Born October 1959 (1959-10) (age 57)
Nationality  Republic of China
Alma mater National Taiwan University
Cornell University
Occupation Distinguished Professor, Institute of Applied Mechanics, National Taiwan University

Chih-Kung Lee (known also as C.K. Lee; Chinese: 李世光) was born in Taipei, Taiwan in October 1959. He received his B.S degree in Civil Engineering from National Taiwan University and then obtained his M.S. and Ph.D. degrees from Cornell University, majoring in Theoretical & Applied Mechanics, with a minor in Physics. He is known as the inventor of modal sensors and actuators. His industrial experiences include positions as Director General of Engineering & Applied Sciences at Taiwan’s National Science Council (NSC), Executive Vice President of Industrial Technology Research Institute (ITRI), and President of the Institute for Information Industry (III). He has been an advisor to the Ministry of Education, Ministry of Economic Affairs and various other governmental agencies. He is concurrently a Distinguished Professor at National Taiwan University at both the Institute of Applied Mechanics (IAM) and the Dept. of Engineering Science & Ocean Engineering.

Personal background

C.K. Lee received his B.S degree in Civil Engineering from National Taiwan University in 1981. After serving his two years mandatory military service in Taiwan’s Air Force, he continued his graduate studies with a fellowship at Cornell University in New York where he received a M.S and Ph.D., majoring in Theoretical & Applied Mechanics, with a minor in Physics. During his PhD studies at Cornell, he developed piezoelectric modal sensors and actuators.[1][2][3] This innovation was important in the control of flexible structures as it resolved modal spillover.

In 1987, C.K. Lee joined IBM’s Almaden Research Center in San Jose, California as a Research Staff Member and later as a Staff to the IBM ARC Laboratory Director. His research work at IBM was primarily on the interdisciplinary areas related to magnetic disk drives, optoelectronic systems, metrology systems and piezoelectric systems. He was awarded an IBM Outstanding Technical Achievement Award for his work on reducing the thermal track mis-registration of the 3.5 inch, 320 MByte, IBM 0661 hard disk file, a highly profitable commercial product at that time. He received two distinguished Invention Awards for his inventions and patents on laser encoders, nanometer fly height measurement systems, piezoelectric strain rate gages, and acceleration rate sensors for early shock arrival.

His younger brother is Howard Lee.[4]

Research interests

In 1994, he joined the faculty of National Taiwan University’s Institute of Applied Mechanics where he co-founded the Nano-Bio-MEMS research group. He is a well-recognized expert in the areas of flexible structure control, shock sensing, and sensor development due to his research work on distributed piezoelectric sensors and actuators. He has directed many research projects in the areas of ultra-high performance laser Doppler interferometers, laser encoders, sphere ellipsometry analyzers, curved distributed piezoelectric sensors/actuators, dot matrix writers, diffractive optical elements/systems, and laser writers. His specialty lies in systems integration which combines mechanics, optics, electronics, semiconductors, mechanisms, metrology, and interface systems to create new innovative systems. He has many research papers in various fields and has over 110 patents, including various technology transfers to industry. He has teamed up with other departments and research teams at other Universities, to focus on topics in medical care, chemical research, electronic engineering and biotechnology. Some results of their research efforts include the SparkleTM[5] holographic mastering system, AVIDTM[6][7] interferometer/vibrometer, an ellipsometer, an ultrasonic sensor with anisotropic beam pattern, SARS No. 1 antivirus[8][9] compound, a flexible electret speaker,[10][11] etc., all of which have been technology transferred to industry. The AVIDTM interferometer/vibrometer won Photonic Spectra’s Circle of Excellence Award in 1998 for one of the top 25 optoelectronic systems worldwide, the first time a Taiwan company won the award.

Specialties

Optoelectronic and Piezoelectric Systems, MEMS & Nano-Systems, Optoelectronic Systems Design, Precision Metrology, Automation Technology, Biochip Systems, Technology Management.

Careers

Honors and awards

References

  1. C. K. Lee, and F. C. Moon, "Modal Sensors/Actuators," Transactions of the ASME Journal of Applied Mechanics, Vol. 57, No. 2, pp. 434-441 (June 1990).
  2. C. K. Lee, and F. C. Moon, "Laminated Piezopolymer Plates for Torsion and Bending Sensors and Actuators," Journal of the Acoustical Society of America, Vol. 85, No. 6, pp. 2432–2439 (June 1989).
  3. C. K. Lee, "Theory of Laminated Piezoelectric Plates for the Design of Distributed Sensors/Actuators. Part I: Governing Equations and Reciprocal Relationships," Journal of Acoustical Society of America, Vol. 87, No.3, pp. 1144–1158 (March 1990).
  4. Li, Lauly (30 April 2016). "Incoming minister laments impact of OBI Pharma scandal". Taipei Times. Retrieved 30 April 2016.
  5. C. K. Lee, Jeremy W. J. Wu, S. L. Yeh, C. W. Tu, Y. A. Han, Eric H.Z. Liao, I. E. Tsai, H. H. Lin, Jeffrey C. T. Hsieh, and Julie T. Lee, "Optical Configuration and Color-representation Range of a Variable-pitch Dot Matrix Holographic Printer," Applied Optics, Vol. 39, No. 1, pp. 40-53 (January 2000).
  6. C. K. Lee, G. Y. Wu, Thomas C. T. Teng, W. J. Wu, C. T. Lin, W. H. Hsiao, H. C. Shih, J. S. Wang, Sam S. C. Lin, Colin C. Lin, C. F. Lee, and Y. C. Lin, "A High Performance Doppler Interferometer for Advanced Optical Storage Systems," Japanese Journal of Applied Physics, Vol. 38, Part 1, No. 3B, pp. 1730–1741 (March 1999).
  7. W. J. Wu, C. K. Lee, and C. T. Hsieh, "Signal Processing Algorithms for Doppler Effect Based Nanometer Positioning Systems," Japanese Journal of Applied Physics, Vol. 38, Part 1, No. 3B, pp. 1725–1729 (March 1999).
  8. Shiming Lin, S. Y. Lee, C. L. Kao, C. W. Lin, A. B. Wang, S. M. Hsu, L. S. Huang, and C. K. Lee, "Surface Ultrastructure of SARS Coronavirus Revealed by Atomic Force Microscopy," Cellular Microbiology, Vol. 7, No. 12, pp. 1763–1770 (December 2005).
  9. C. K. Lee, C. W. Lin, Shiming Lin, Adam S. Y. Lee, J. Y. Wu, S. S. Lee, W. H. Hsiao, S. J. Chen, and A. B. Wang, "From an Integrated Biochip Detection System to a Defensive Weapon Against the SARS-CoV Virus: OBMorph," MRS Proceedings - Nanoengineered Assemblies and Advanced Micro/Nanosystems, Vol. 820, paper no. O9.8, pp. 249-260, 2004 MRS Spring Meeting - Symposium O: Advanced Microsystems-Integration with Nanotechnology and Biomaterials, San Francisco, CA, USA (April 12–16, 2004).
  10. W. C. Ko, C. K. Tseng, W. J. Wu, and C. K. Lee, "Charge Storage and Mechanical Properties of Porous PTFE and Composite PTFE/COC Electrets," e-Polymers, paper no. 032 (March 2010).
  11. W. C. Ko, C. K. Tseng, I. Y. Leu, W. J. Wu, Adam S. Y. Lee and C. K. Lee, "Use of 2-(6-mercaptohexyl) Malonic Acid to Adjust the Morphology and Electret Properties of Cyclic Olefin Copolymer and its Application to Flexible Loudspeakers," Smart Materials and Structures, Vol. 19, No. 5, paper no. 055007 (March 2010).
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