X. Brun, D. Thomasset, and E. Bideaux, Influence of the process design on the control strategy: application in electropneumatic field, Control Engineering Practice, vol.10, pp.727-735, 2002.
URL : https://hal.archives-ouvertes.fr/hal-00140640

D. Harrold, Select and Size Control Valves Properly to Save Money, 1999.

B. Armstrong-hélouvry and P. Dupont, Canudas de Wit, C. A survey of analysis tools and compensation methods for the control of machines with friction, Automatica, vol.30, pp.1083-1138, 1994.

T. Kimura, S. Hara, T. Fujita, and T. Kagawa, Feedback Linearization for Pneumatic Actuator Systems with Static Friction, Control Eng. Practice, vol.5, pp.1385-1394, 1997.

S. Tafazoli, Tracking control of an Electrohydraulic Manipulator in the presence of Friction, IEEE Trans. on Cont. Syst. Tech, vol.6, pp.401-411, 1998.

M. S. Kang, Robust digital friction compensation, Cont. Eng. Prac, vol.6, pp.359-367, 1998.

L. R. Tokashiki-kishimoto, Dynamic Characteristics of Pneumatic Cylinder Systems, Thèse: Sci.: Tokyo Institute of Technology, vol.133, 1999.

A. Suzuki and M. Tomizuka, Design and Implementation of Digital Servo Controller for High Speed, Machine Tools Proc. AACC, pp.1246-1251, 1991.

C. C. Cheng and C. Y. Chen, A PID approach to suppressing stick-slip in the positioning of transmission mechanisms, Cont. Eng. Pract, vol.6, pp.359-367, 1998.

K. Hamiti, A. Voda-besançon, and H. Roux-buisson, Position Control of a Pneumatic Actuator Under the influence of Stiction, Control Eng. Practice, vol.4, pp.1079-1088, 1996.

S. Ming-chang and T. Shy-i, Identification and position control of a servo pneumatic cylinder, Control Engineering Practice, vol.3, issue.9, pp.1285-1290, 1995.

, Servo pneumatics finding its niche, bit by bit, vol.4, pp.32-33, 2003.

S. Sesmat and S. Scavarda, Study of the behavior of an electropneumatic positioning system near the equilibrium state. 1 st Int. Fluid. Kolloq, vol.2, pp.321-334, 1998.

X. Brun, S. Sesmat, S. Scavarda, and D. Thomasset, Simulation and experimental study of the partial equilibrium of an electropneumatic positioning system, cause of the 'sticking and restarting phenomenon', 4 th Jap Hydraulics and Pneumatics Society Int. Symp. on Fluid Power, pp.125-130, 1999.
URL : https://hal.archives-ouvertes.fr/hal-02064151

K. A. Edge, The control of fluid power systems -responding to the challenge, Journal of Systems and Control Engineering, vol.211, pp.91-110, 1997.

E. Richard and S. Scavarda, Comparison between Linear and Nonlinear control of an eletropneumatic servodrive, J. of Dynamic Systems, Measurement, and Control, vol.118, pp.245-252, 1996.

J. L. Shearer, Study of pneumatic processes in the continuous control of motion with compressed air. Parts I and II, Trans. Am. Soc. Mech. Eng, vol.78, pp.233-249, 1956.

D. Mc-cloy, Discharge characteristics of servo valve orifices, The 1968 Fluid Power International conference, pp.43-50, 1968.

A. Tustin, The Effect of Backlash and Speed-dependent Friction on the Stability of closed-cycle control systems, Jour. of the Institution of Electrical Engineers, vol.94, pp.143-151, 1947.

P. R. Dahl, A Solid friction Model. TOR-158, The Aerospace Corporation, pp.3107-3118, 1968.

B. Armstrong-hélouvry, P. Dupont, and C. Canudas-de-wit, A survey of analysis tools and compensation methods for the control of machines with friction, Automatica, vol.30, pp.1083-1138, 1994.

C. Canudas-de-wit, H. Olsson, K. J. Aström, and P. Lischinsky, A new model for control of systems with friction, IEEE Transactions on Automatic Control, vol.40, pp.419-425, 1995.

D. Karnopp, Computer Simulation of Stick-Slip Friction in Mechanical Dynamic Systems, Journal of Dynamic Systems, Measurement and Control, vol.107, pp.100-103, 1985.

R. Stribeck, Die Wesentlichen eigenschaften der Gleit und Rollenlager -the key qualities of sliding and roller bearings, vol.46, pp.1432-1437, 1902.

X. Brun, M. Belgharbi, S. Sesmat, D. Thomasset, and S. Scavarda, Control of an electropneumatic actuator, comparison between some linear and nonlinear control laws, Journal of Systems and Control Engineering, vol.213, pp.387-406, 1999.
URL : https://hal.archives-ouvertes.fr/hal-00141155

C. T. Johnson and R. D. Rolenz, Experimental identification of friction and its compensation in precise position controlled mechanism, IEEE Trans. Ind. Applic, vol.28, pp.1392-1398, 1992.

C. Canudas-de-witt, K. J. Åström, and K. Braun, Adaptive friction compensation in dc-motor drive, IEEE Jounal Robotics Automn, issue.6, pp.681-685, 1987.

R. Ray, L. Ramasubramanian, A. Townsend, and J. , Adaptive friction compensation using extended Kalman-Bucy filter friction estimation, Control Eng. Practice, vol.9, pp.169-179, 2001.

S. H. Cho and K. A. Edge, Adaptive sliding mode tracking control of hydraulic servosystems with unknown non-linear friction and modeling error, Journal of Syst. and Control Eng, vol.214, pp.247-258, 2000.

S. H. Choi, C. O. Lee, and S. H. Cho, Friction compensation control of an electropneumatic servovalve by using an evolutionary algorithm, Journal of Systems and Control Engineering, vol.214, pp.173-184, 2000.