References
- 1. Gough V. E., Whitehall S. G. (2012), Universal tyre test machine, Proceedings of the 9th International Technical Congress F.I.S.I.T.A, 117-137,1962.
- 2. Paul A. K., Mishra J. K., Radke M. G. (1994, Reduced order sliding mode control for pneumatic actuator, IEEE Transactions on Control Systems Technology, Vol. 2, No. 3, 271-276.10.1109/87.317984
- 3. Shunmugham P., Hayakawa Y. (1997), Practical design of adaptive model-based sliding mode control of pneumatic actuators, Proceedings of Advanced Intelligent Mechatronics, IEEE, Tokyo, Japan, 140.
- 4. Urniezius R., Geguzis E. (2014), Hybrid Fuzzy Logic and Adpative LQR Controller for Swing-up, Positioting and Stabilization of Inverted Pendulum, Elektronika ir Elektrotechnika, Vol.20, No.3, 11-15.
- 5. Varseveld R. B. V., Bone G. M. (1997), Accurate position control of a pneumatic actuator using on/off solenoid valves, IEEE/ASME Transactions on Mechatronics, Vol. 2, No. 3, 195-204.
- 6. Wang J., Pu J., Moore P. (1999), A practical control strategyfor servo-pneumatic actuator systems, Control Engineering Practice, Vol. 7, No. 12, 1483-1488.
- 7. Wang W., Yang H., Zou J., Ruan X., Fu X. (2009) Optimal design of Stewart platforms based on expanding the control bandwidth while considering the hydraulic system design, Journal of Zhejiang University, Vol.10(1), 22-30.
- 8. Weng Ch., Xu Z. (2013), Track-position and vibration control simulation for strut of the Stewart platform, Applied Physics and Engineering, Vol.14(4), 281-291.
- 9. http://stackoverflow.com/questions/17308956/differences-betweenhard- real-time-soft-real-time-and-firm-real-time (10.09.2014)
- 10. http://www.buddyrc.com/new-power-xl-9hm.html (12.03.2014)
- 11. http://www.ece.uah.edu/corses/ee426/Butterworth.pdf (30.09.2014)