Modelling and Simulation of a Large Scale of Multilink Mechanisms using a Dynamic Pneumatic Controller

M. Guihard and P. Gorce

References

  1. [1] J.Y. Lai, C.H. Meng, & R. Singh, Accurate position controlof a pneumatic actuator, ASME Journal of Dynamic SystemsMeasurment and Control, 4, 1990, 734–739. doi:10.1115/1.2896202
  2. [2] B. Tondu & P. Lopez, Modelling and control of McKibben artificial muscle robot actuators, IEEE Control Systems Magazine, April 2000, 15–38. doi:10.1109/37.833638
  3. [3] J. Pu, P.R. Moore, & R.H. Weston, Digital servo motion controlof air motors, International Journal of Product Research,29 (3), 1991, 599–618. doi:10.1080/00207549108930091
  4. [4] J. Pu & R.H. Weston, Motion control of pneumatic drives,International Journal of Microprocessors and Microsystems,12 (7), 1988, 373–382. doi:10.1016/0141-9331(88)90142-1
  5. [5] S. Liu & J.E. Bobrow, An analysis of a pneumatic servo systemand its application to a computer-controlled robot, Journalof Dynamic Systems, Measurements, and Control, 110, 1988,228–235.
  6. [6] D.G. Caldwell, G.A. Medrano-Cerda, & M. Goodwin, Control of pneumatic muscle actuators, IEEE Control Systems Magazine, 15 (1), 1995, 40–48. doi:10.1109/37.341863
  7. [7] A. Kellal, Contribution a l’étude des asservissemants electropneumatiques. Application a la réalisation d’un asservissementnumérique d’un axe de robot, doctoral diss., INSA Lyon, Lyon,France, 1987.
  8. [8] M.C. Shih & Y.H. Huang, Pneumatic servo-cylinder positioncontrol using a self-tuning controller, JSME Journal, 35 (2),1992, 247–253.
  9. [9] A.K. Paul, J.K. Mishra, & M.G. Radke, Sliding mode controlof pneumatic actuator for robotic application, IEEE/RSJ Int.Conf. on Intelligent Robot and Systems, Yokohama, Japan,July 1993, 1268–1275. doi:10.1109/IROS.1993.583747
  10. [10] C.P. Chou & B. Hannaford, Static and dynamic characteristicsof McKibben pneumatic artificial muscles, IEEE Int. Conf. onSystems Man and Cybernetics, 1994, 281–286. doi:10.1109/ROBOT.1994.350977
  11. [11] A. Bouhal, E. Richard, & S. Scavarda, An experimentalcomparative study of linear and nonlinear adaptive pressureregulation, 6th Bath Int. Fluid Power Workshop, Bath, UK,1993, 225–238.
  12. [12] B.W. McDonell & J.E. Bobrow, Modeling, identification andcontrol of a pneumatic actuated robot, IEEE Int. Conf. onRobotics and Automation, Albulquerque, NM, April 1997,124–129. doi:10.1109/ROBOT.1997.620026
  13. [13] J.E. Bobrow & B.W. McDonell, Modelling, identification, andcontrol of a pneumatically actuated, force controllable robot,IEEE Trans. on Robotics and Automation, 14 (5), 1998, 732-742. doi:10.1109/70.720349
  14. [14] N. Hogan, Impedance control: An approach to manipulation: Part I—Theory; Part II—Implementation; Part III—Applications, ASME Journal of Dynamic Systems, Measurements and Control, 107, 1985, 1–24.
  15. [15] P. Gorce & M. Guihard, On dynamic control of pneumaticbipeds, Journal of Robotic Systems, 15 (7), 1998, 421–433. doi:10.1002/(SICI)1097-4563(199807)15:7<421::AID-ROB4>3.0.CO;2-O
  16. [16] J.L. Shearer, Study of pneumatic processes in the continuouscontrol of motion with compressed air, I, II, Trans. ASME,February 1956, 233–249.
  17. [17] S.J. Lin & A. Akers, Dynamic analysis of a flapper-nozzle valve,Journal of Dynamic Systems, Measurements, and Control,113, 1991, 163–166. doi:10.1115/1.2896343
  18. [18] M. Guihard, Comparative study of adaptive controllers fora pneumatic driven leg, in Intelligent robots and systems(Munich, Germany: Elsevier Science, 1994).
  19. [19] I. D. Landau & R. Horowitz, Applications of the passive systemsapproach to the stability analysis of adaptive controllers forrobot manipulators, International Journal of Adaptive Controland Signal Processing, 3, 1989, 23–38. doi:10.1002/acs.4480030104
  20. [20] P. Gorce & F. El Hafi, Walking dynamic control under unknownperturbations, IEEE?SMA Int. Conf. on Systems, Man and Cybernetics, 4, San Diego, CA, October 1998, 3538-3543. doi:10.1109/ICSMC.1998.726591

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