Free Access
Volume 9, February 2003
Page(s) 151 - 168
Published online 15 September 2003
  1. K.J. Aström and T. Hägglund, PID Controllers: Theory, Design, and Tuning. Instrument Society of America (1998). [Google Scholar]
  2. K.J. Åstrom and B. Wittenmark, Adaptive Control, 2nd Ed. Addison-Wesley (1995). [Google Scholar]
  3. A. Buium, Differential Algebra and Diophantine Geometry. Hermann (1994). [Google Scholar]
  4. R.R. Bitmead, M. Gevers and V. Wertz, Adaptive Optimal Control: The Thinking Man's GPC. Prentice Hall (1990). [Google Scholar]
  5. P. Caines, Linear Stochastic Systems. Wiley (1988). [Google Scholar]
  6. S. Diop and M. Fliess, On nonlinear observability, in Proc. 1st Europ. Control Conf., edited by C. Commault, D. Normand-Cyrot, J.M. Dion, L. Dugard, M. Fliess, A. Titli, G. Cohen, A. Benveniste and I.D. Landau. Hermès (1991) 152-157. [Google Scholar]
  7. S. Diop and M. Fliess, Nonlinear observability, identifiability and persistent trajectories, in Proc. 36thIEEE Conf. Decision Control. Brighton (1991) 714-719. [Google Scholar]
  8. G. Doetsch, Theorie und Anwendung der Laplace-Transformation. Springer (1937). [Google Scholar]
  9. M. Fliess, Reversible linear and nonlinear discrete-time dynamics, IEEE Trans. Automat. Control 37 (1992) 1144-1153. [CrossRef] [MathSciNet] [Google Scholar]
  10. M. Fliess and R. Marquez, Continuous-time linear predictive control and flatness: A module-theoretic setting with examples. Int. J. Control 73 (2000) 606-623. [CrossRef] [MathSciNet] [Google Scholar]
  11. M. Fliess and R. Marquez, Une approche intrinsèque de la commande prédictive linéaire discrète. APII J. Europ. Syst. Automat. 35 (2001) 127-147. [Google Scholar]
  12. M. Fliess, R. Marquez, E. Delaleau and H. Sira-Ramírez, Correcteurs proportionnels-intégraux généralisés. ESAIM: COCV 7 (2002) 23-41. [CrossRef] [EDP Sciences] [Google Scholar]
  13. M. Fliess and H. Sira-Ramírez, On the noncalibrated visual based control of planar manipulators: An on-line algebraic identification approach, in Proc. IEEE Conf. SMC. Hammamet, Tunisia (2002). [Google Scholar]
  14. T. Glad and L. Ljung, Control Theory: Multivariable and Nonlinear Methods. Taylor and Francis (2000). [Google Scholar]
  15. G.C. Goodwin and K.S. Sin, Adaptive Filtering Prediction and Control. Prentice Hall (1984). [Google Scholar]
  16. L. Hsu and P. Aquino, Adaptive visual tracking with uncertain manipulator dynamics and uncalibrated camera, in Proc. 38th IEEE Conf. Decision Control. Phoenix (1999) 1248-1253. [Google Scholar]
  17. R. Isermann, Identifikation dynamischer Systeme. Springer (1987). [Google Scholar]
  18. C.R. Johnson, Lectures on Adaptive Parameter Estimation. Prentice Hall (1988). [Google Scholar]
  19. E.R. Kolchin, Differential Algebra and Algebraic Groups. Academic Press (1973). [Google Scholar]
  20. I.D. Landau, System Identification and Control Design. Prentice-Hall (1990). [Google Scholar]
  21. I.D. Landau and A. Besançon-Voda, Identification des systèmes. Hermès (2001). [Google Scholar]
  22. I.D. Landau, R. Lozano and M. M'Saad, Adaptive Control. Springer (1997). [Google Scholar]
  23. L. Ljung, System Identification: Theory for the User. Prentice-Hall (1987). [Google Scholar]
  24. L. Ljung and T. Glad, On global identifiability for arbitrary model parametrizations. Automatica 30 (1994) 265-276. [CrossRef] [MathSciNet] [Google Scholar]
  25. I. Mareels and J.W. Polderman, Adaptive Systems. An Introduction. Birkhäuser (1996). [Google Scholar]
  26. J.C. McConnell and J.C. Robson, Noncommutative Noetherian Rings. Amer. Math. Soc. (2000). [Google Scholar]
  27. J. Mikusinski, Operational Calculus, 2nd Ed., Vol. 1. PWN & Pergamon (1983). [Google Scholar]
  28. J. Mikusinski and T.K. Boehme, Operational Calculus, 2nd Ed., Vol. 2. PWN & Pergamon (1987). [Google Scholar]
  29. K. Narenda and A. Annaswamy, Stable Adaptive Control. Prentice Hall (1989). [Google Scholar]
  30. F. Ollivier, Le problème de l'identifiabilité globale : étude théorique, méthodes effectives et bornes de complexité, Thèse. École Polytechnique, Palaiseau (1990). [Google Scholar]
  31. J. Richalet, Pratique de l'identification, Formula Éd. Hermès (1998). [Google Scholar]
  32. A. Robinson, Local differential algebra. Trans. Amer. Math. Soc. 97 (1960) 427-456. [CrossRef] [MathSciNet] [Google Scholar]
  33. S. Sastry and M. Bodson, Adaptive Control. Prentice Hall (1989). [Google Scholar]
  34. A. Sedoglavic, Méthodes seminumériques en algèbre différentielle ; applications à l'étude des propriétés structurelles de systèmes différentiels algébriques en automatique, Thèse. École polytechnique, Palaiseau (2001). [Google Scholar]
  35. H. Sira-Ramírez, E. Fossas and M. Fliess, Output trajectory tracking in an uncertain double bridge ``buck" dc to dc power converter: An algebraic on-line parameter identification approach, in Proc. 41st IEEE Conf. Decision Control (2002). [Google Scholar]
  36. H. Sira-Ramírez and M. Fliess, On the discrete-time uncertain visual based control of planar manipulators: An on-line algebraic identification approach, in Proc. 41st IEEE Conf. Decision Control (2002). [Google Scholar]
  37. P. Söderström and P. Stoica, System Identification. Prentice-Hall (1989). [Google Scholar]
  38. J.-C. Trigeassou, Contribution à l'extension de la méthode des moments en automatique. Application à l'identification des systèmes linéaires, Thèse d'État. Université de Poitiers (1987). [Google Scholar]
  39. É. Walter, Identifiability of State Space Models. Springer (1982). [Google Scholar]
  40. É. Walter, L. Pronzato, Identification des modèles paramétriques. Masson (1994). [Google Scholar]
  41. K. Yosida, Operational Calculus. Springer (1984). [Google Scholar]

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