Wenhui Wang, PhD

Resume click here for a complete PDF format CV

Objective

Research concentrating on intelligent mechatronic systems and MEMS devices with applications on biology and biomedical/life sciences.

 

Experience

11/2007-present

Lecturer, Mechanical Engineering, University of Canterbury, New Zealand

10/2005-10/2007

Post-doctoral Research Associate, Advanced Micro and Nanosystems Laboratory (AMNL), University of Toronto, Canada 

4/2002-9/2005

Research Scholar, National University of Singapore (NUS), Singapore

11/2004-1/2005

Research Engineer, Singapore Inst. of Manufacturing Tech., Singapore

1/2003-4/2003

Teaching Assistant, NUS, Singapore 

4/2001-3/2002

Product Research Engineer, Lenovo, Beijing, PRC 

9/1998-3/2001

Research Assistant, Beijing Inst. of Tech. (BIT), Beijing, PRC

 

Education

Ph.D., Mechanical Engineering, 8/2005

National University of Singapore (NUS), Singapore

Awards: Graduate Research Scholarship

 

M.S., Systems Engineering, 3/2001

Beijing Institute of Technology (BIT), Beijing, PRC

Awards: Graduate Research Assistantship, Distinguished Graduate Student

 

B.S., Mechanical & Electronic Engineering, 7/1998

Beijing Institute of Technology (BIT), Beijing, PRC

Awards: People Fellowship, Distinguished Bachelor Thesis

 

 

Patents

[1] Y. Sun, W. H. Wang, and X. Y. Liu, High-throughput automated cellular injection system and method, filed, 2006.

 

[2] W. H. Wang, G. S. Hong, and Y. S. Wong, A tool condition monitoring system by sensor integration, US Provisional Patent Application No. 60/737,921.

 

Book Chapter

W. H. Wang, Y. S. Wong, and G. S. Hong, Sensor Fusion for On-Line Monitoring in Milling, MECHATRONIC SYSTEMSí¬Devices, Design, Control, Operation, and Monitoring, in press, CRC Press, Taylor & Francis, Boca Raton, FL.

 

Publications (25)

[1] W. H. Wang, Y. Sun, M. Zhang, R. Anderson, L. Langille, and W. Chan, High-throughput adherent cell injection, submitted to IEEE Trans. Nanobioscience. IF 2.592.

[2] W. H. Wang, Y. Sun, M. Zhang, R. Anderson, L. Langille, and W. Chan, A microrobotic adherent cell injection system for investigating intracellular behavior of quantum dots, IEEE Conference on Robotics and Automation (ICRA2008), Pasadena, California, May 19-23, 2008.

[3] W. H. Wang, X. Y. Liu, D. Gelinas, B. Ciruna, and Y. Sun, A fully automated robotic system for microinjection of zebrafish embryos, PLoS ONE, 2(9), e862, doi: 10.1371/journal.pone.0000862, 2007.

[4] W. H. Wang, Y. Sun, S. J. Dixon, M. Alexander, and P. J. Roy, A micropositioning system with real-time feature extraction capability for quantifying C. elegans locomotive behavior, IEEE Conference on Automation Science and Engineering (CASE 2007), Scottsdale, Arizona, Sep. 22-25, 2007.

[5] W. H. Wang, X. Y. Liu, and Y. Sun, Autonomous zebrafish embryo injection using a microrobotic system, IEEE Conference on Automation Science and Engineering (CASE 2007), Scottsdale, Arizona, Sep. 22-25, 2007. (Winner of the Best Conference Paper Award)

[6] W. H. Wang, Y. Sun, S. J. Dixon, M. Alexander, and P. J. Roy, A micropositioning system for investigating C. elegans locomotive behavior, submitted to Machine Vision and Applications. IF 0.569.

[7] W. H. Wang, X. Y. Liu, and Y. Sun, High-throughput automated injection of individual biological cells, Special Issue on Drug Delivery Automation, IEEE Trans. Automation Science and Engineering, to appear in 2008. IF 0.929.

[8] X. Y. Liu, W. H. Wang, and Y. Sun, Dynamic evaluation of autofocusing for automated microscopic analysis of blood smear and pap smear, Journal of Microscopy, 227, 15-23, 2007. IF 1.947.

[9] W. H. Wang, X. Y. Liu, and Y. Sun, Contact detection in microrobotic manipulation, Int. J. Robot. Res. 26, 821-828, 2007. IF  1.591.

[10] X. Y. Liu, Y. Sun, W. H. Wang, and B. M. Lansdorp, Vision-based cellular force measurement using an elastic microfabricated device, J. of Micromechanics and Microengineering, 2007, 17(7), 1281-1288. IF 2.321. (selected by the journal as a Featured Article)

[11] X. Y. Liu, W. H. Wang, B. M. Lansdorp, and Y. Sun, Vision-based cellular force measurement using an elastic microfabricated device, IEEE International Conference on Intelligent Robotics and System 2006, Oct. 9-15, Beijing, China.

[12] X. Y. Liu, W. H. Wang, and Y. Sun, Autofocusing for automated microscopic evaluation of blood smear and pap smear, IEEE International Conference on Engineering in Medicine and Biology Society 2006, Aug. 29-Sep. 3, New York, USA.

[13] W. H. Wang, X. Y. Liu, and Y. Sun, Robust contact detection in micromanipulation using computer vision microscopy, IEEE International Conference on Engineering in Medicine and Biology Society 2006, Aug. 29-Sep. 3, New York, USA.

[14] Y. Sun, X. Y. Liu, W. H. Wang, and B. M. Lansdorp, An elastic MEMS device for cellular force measurement, Solid-State Sensor, Actuator and Microsystems Workshop (Hilton Head 2006), Hilton Head Island, SC, Jun. 4-8, 2006.

[15] Y. Sun, X. Y. Liu, W. H. Wang, and B. M. Lansdorp, Multi-functionalities of computer vision microscopy in autonomous microrobotic cell manipulation, invited paper; Workshop: The Role of Robotics in Micro and Nanotechnolgies, IEEE International Conference on Robotics and Automation (ICRA2006), Orlando, Florida, May 15-19, 2006. 

[16] K. P. Zhu, G. S. Hong, Y. S. Wong, and W. H. Wang, Cutting force denoising in micro-milling tool condition monitoring, Int. J. Prod. Res., In press. IF 0.799.

[17] W. H. Wang, G. S. Hong, Y. S. Wong, and K. P. Zhu, Sensor fusion for on-line tool condition monitoring in milling, Int. J. Prod. Res., 45(21), 5095-5116, 2007. IF 0.799.

[18] W. H. Wang, Y. S. Wong, and G. S. Hong, 3-D measurement of crater wear by phase-shifting method, Wear, 2006, 261(2), 164-171. IF 1.18.

[19] W. H. Wang, G. S. Hong, and Y. S. Wong, Flank wear measurement by a threshold independent method with sub-pixel accuracy, Int. J. Mach. Tools Manufact., 2006, 46(2), 199-207. IF 1.184.

[20] W. H. Wang, Y. S. Wong, and G. S. Hong, Flank wear measurement by successive image analysis, Special Issue in Machine Vision in Computers in Industry, 2005, 56(8-9), 816-830. IF 1.141.

[21] W. H. Wang, G. S. Hong, and Y. S. Wong, Sensor fusion for on-line tool condition monitoring in milling, International symposium on collaborative research in applied science (ISOCRIAS), Oct. 7-9, The University of British Columbia, Vancouver, BC, Canada, pp. 66-73, 2005.

[22] W. H. Wang, Y. S. Wong, and G. S. Hong, Flank wear measurement based on moving images, in ISIST 2004, Vol. 2, Aug. 18-22, Xií»an, China, pp. 159-164, 2004.

[23] W. H. Wang, Integrated method of recognizing huge target, Journal of Beijing Institute of Technology (English Edition), 2001, 10(4), 423-429.

[24] W. H. Wang, A method of fast recognition of huge objects, ACTA ARMAMENTARII, 2001, 22(3), 423-425.

[25] C. X. Wan, R. S. Yu, and W. H. Wang, On Computer Simulation of Image Guidance, in Proc. of 2000 Annual Conference sponsored by China Aerospace Corp., Chengdu, China. pp. 98-101.

 

PAPER REVIEW

IEEE Transactions on Automation Science and Engineering

IEEE International Conference on Robotics and Automation

IEEE International Conference on Engineering in Medicine and Biology Society

IEEE International Conference on Intelligent Robots and Systems

Robotics: Science and Systems

Image and Vision Computing

Journal of Materials Processing Technology

 

PROFESSIONAL ASSOCIATION

Member, IEEE

 

INVITED TALKS

[1] Microrobotics and Computer Vision for Biomanipulation, Nov. 2007, Tsinghua University, PRC.

[2] Microrobotics in Biology: Manipulating Cells and Organisms, Nov. 2007, Beihang University, PRC.

[3] Microrobotic Manipulation of Biological Cells and Organisms, May 2007, University of Canterbury, New Zealand.

[4] Mechatronics and Robotics in Systems Development, Nov. 2006, Shenzhen Institute of Advanced Technology, PRC.