1 |
Kang, J. J., Lee, W. T., Shin, K. C., Kim, J. S. and Chun, D. P. (2005). Development of algorithm for coulomb friction compensation in swirl system. Spring Conf. Proc., Korean Society Automotive Engineers, 431− 436
|
2 |
Pechlaner, A. and Bjorn, S. (2001). Electronic throttle control with contactless position sensor and smart power full-bridge, electronic engine controls. SAE World Cong. Detroit, Michigan March 5-8, 2001-01-0984
|
3 |
Yeo, H., Song, C. H., Kim, C. S. and Kim, H. S. (2004). Hardware in the loop simulation of hybrid vehicle for optimal engine operation by CVT ratio control. Int. J. Automotive Technology 5, 3, 201−208
|
4 |
Charles, L. P. and Troy, H. N. (1995). Digital Control System Analysis and Design. 3rd Edn.. Prentice Hall. New Jersey
|
5 |
Deur, J., Pavkovic, D., Peric, N. and Jansz, M. (2004). An electronic throttle control strategy including compensation of friction and limp-Home effects, industry applications. IEEE Trans. 40, 3, 821-834
DOI
ScienceOn
|
6 |
William, F. R. and Leroy, D. S. (1996). Engineering Mechanics Statics. 2nd Edn.. Wiley, New York
|
7 |
Labrosse, J. J. (2000). Embedded Systems Building Blocks. 2nd Edn.. R&D Books. Kansas. USA
|