Academic Profile : Faculty
Assoc Prof Chan Weng Kong
Associate Professor, School of Mechanical & Aerospace Engineering
Email
Journal Articles
(Not applicable to NIE
staff as info will be
pulled from PRDS)
(Not applicable to NIE
staff as info will be
pulled from PRDS)
N. Kashaninejad, W.K. Chan, N.T. Nguyen. (2012). Eccentricity effect of micropatterned surface on contact angle. Langmuir, 28(10), 4793–4799.
Shu Jian Jun, Yong KY and Chan WK. (2012). An improved scoring matrix for multiple sequence alignment. Mathematical Problems in Engineering, 2012(490649), 1-9.
Shu Jian Jun, Yong KY and Chan WK. (2011). Lecture Notes in Computer Science 6784, Proceedings of the 11th International Conference on Computational Science and its Applications: Lecture notes in computer science: Multiple DNA sequence alignment using joint weight matrix. The 11th International Conference on Computational Science and its Applications (pp. 668-675)Santander, Spain: Springer-Verlag Berlin Heidelberg.
Teo JB, Chan WK, Wong YW. (2010). Prediction of leakage flow in a research centrifugal blood pump. Artificial Organs, 34(9), 788 - 791.
Chan W.K., Ooi K.T., Loh Y C. (2007). Numerical and in-vitro investigations of pressure rise in a new hydrodynamic blood bearing. Artificial Organs, 31(6), 434-440.
Shu Jian Jun, Yong KY and Chan WK. (2012). An improved scoring matrix for multiple sequence alignment. Mathematical Problems in Engineering, 2012(490649), 1-9.
Shu Jian Jun, Yong KY and Chan WK. (2011). Lecture Notes in Computer Science 6784, Proceedings of the 11th International Conference on Computational Science and its Applications: Lecture notes in computer science: Multiple DNA sequence alignment using joint weight matrix. The 11th International Conference on Computational Science and its Applications (pp. 668-675)Santander, Spain: Springer-Verlag Berlin Heidelberg.
Teo JB, Chan WK, Wong YW. (2010). Prediction of leakage flow in a research centrifugal blood pump. Artificial Organs, 34(9), 788 - 791.
Chan W.K., Ooi K.T., Loh Y C. (2007). Numerical and in-vitro investigations of pressure rise in a new hydrodynamic blood bearing. Artificial Organs, 31(6), 434-440.