Erection mechanism; Co-simulation; Virtual prototype technology; Fuzzy control;

TangC. Y., ZhangT. X., CaoWanke. Research on the control and simulation of vehicle suspension systems. Int. J. Modelling, Identification and Control. 2007; 7(1): 49-56.

WangD. W.,Minhtuan Pham. A high-fidelity co-simulation platform for motion and control research for vehicle platooning. Int. J. Vehicle Autonomous Systems. 2008; 6(1/2): 104-121.

Wu Juan, Kou Ziming. Co-simulation analysis of hydraulic steel-belt overwind buffer device. Research Journal of Applied Sciences, Engineering and Technology. 2013; 5(23): 5377-5383.

BrancatiR, RossiC, Timpone F. Dynamic behavior and motion planning of a robot arm with non-rigid transmission. Mechanics Based Design of Structures and Machines. 2007; 35(4): 347-362.

HouB, Wang J. Evaluation of dynamic performance of magneto-rheological damper by virtual prototype technology. Int. J. of Modern Physics B. 2005; 19(07n09): 1542-1548.

Herman A. Hamersma, P. SchalkEls. Improving the braking performance of a vehicle with ABS and a semi-active suspension system on a rough road. Journal of Terramechanics. 2014; 56: 91-101.

Alessandro Roccatello, Salvatore Manco, Nicola Nervegna. Modelling a variable displacement axial piston pump in a multibody simulation enviorment. Journal of Dynamic Systems, Measurement, and Control. 2007; 129(7): 456-468.

ZhaoZ. M., YuanX. Y., GuoY, et.al. Modelling and simulation of a two-axis tracking system.Proceedings of the Institution of Mechanical Engineers, Part Ⅰ: J. Systems and Control Engineering. 2009; 224(2): 125-137.

Donghyun Kim, Sungho Hwang and Hyunsoo Kim. Vehicle stability enhancement of four-wheel-drive hybrid electric vehicle using rear motor control. IEEE Transactions on Vehicular Technology. 2008; 57(2): 727-735.

C. Le Brun, E. Godoy, D. Beauvois, et.al. Modelling and analysis of a turbojet fuel system. Int. J. of Computer Theory and Engineering. 2014; 6(3): 260-266.

ZengX. H., YangN. N., PengY. J., et.al. Research on energy saving control strategy of parallel hybrid loader. Automation in Construction. 2014; 38: 100-108.

Jin L. Q., Chen P. F. Simulation of the control strategy for an electric bus with motorized wheels. Research Journal of Applied Sciences, Engineering and Technology. 2014; 7(6): 1120-1124.

SongC. X., WangJ., JinL. Q. Study on the composite ABS control of vehicles with four electric wheels. Journal of Computers. 2011; 6(3): 618-626.

GuanC., Pan S. X. Adaptive sliding mode control of electro-hydraulic system with nonlinear unknown parameters. Control Engineering Practice. 2008; 16: 1275-1284.

Branco, P. J. C., Dente, J. A. On using fuzzy logic to integrate learning mechanisms in an electro-hydraulic system—Part I: Actuator’s fuzzy modeling. IEEE Transactions on Systems, Man, and Cybernetics—Part C: Applications and Reviews. 2000; 30(3): 305-316.

Mudi, R. K., Pal, N. K. A self-tuning fuzzy PI controller. Fuzzy Sets Systems. 2000; 115(2): 327–338.

Kim, M. Y., Lee, C.O. An experimental study on the optimization of controller gains for an electro-hydraulic servo system using evolution strategies. Control Engineering Practice. 2006; 14(2): 137–147.

ChenC. Y., LiuL. Q., ChengC. C., et.al. Fuzzy controller design for synchronous motion in a dual-cylinder electro-hydraulic system. Control Engineering Practice. 2008; 16(6): 658-673.

Chiang, M. H., Chen, C. C., Kuo, C. F. J. The High Response and high efficiency velocity control of a hydraulic injection molding machine using a variable rotational speed electro-hydraulic pump-controlled system. The International Journal of Advanced Manufacturing Technology. 2009; 43(9–10): 841–851.

Zheng, J. M., Zhao, S. D., Wei, S. G. Application of self-Tuning fuzzy PID controller for a SRM direct drive volume control hydraulic press. Control Engineering Practice. 2009; 17(12): 1398–1404.

Bai, H., Guan, C., Pan, S. X. Fuzzy decision based sliding mode robust adaptive control for bulldozer. Journal of Zhejiang University (Engineering Science). 2009; 43(12): 2178–2185.

Detiček E, Župerl U. An intelligent electro-hydraulic servo drive positioning. Strojniški vestnik-Journal of Mechanical Engineering. 2011; 57(5): 394-404.

Otto Cerman, PetrHusek. Adaptive fuzzy sliding mode control for electro-hydraulic servo mechanism. Expert System with Applications. 2012; 39: 10269-10277.

Manuel A. Avila, Alexander G. Loukianov, Edgar N. Sanchez. Electro-hydraulic actuator trajectory tracking. Proceeding of the 2004 American Control Conference.Boston, Massachusetts. 2004: 2603-2608.

PornjitPratumsuwan, SiripunThongchai, SurapunTansriwong. A hybrid of fuzzy and proportional integral derivative controller for electro-hydraulic position servo system. Energy Research Journal. 2010; 1(2): 62-67.

Zulfatman, M. F. Rahmat. Application of self-tuning fuzzy PID controller on industrial hydraulic actuator using system identification approach. International Journal on Smart Sensing and Intelligent Systems. 2009; 2(2): 246-261.

KalyoncuMete, Mustafa Haydim. Mathematical modelling and fuzzy logic based position control of an electro-hydraulic servo system with internal leakage. Mechatronics. 2009; 19(6): 847-858.