References
- [1] M. Vítečková, A. Smutný and L. Víteček, “Controller Tuning for Controlled Plants With Time Delay”, Preprints of Proceedings of Pid’00: IFAC Workshop on Digital Control, Terrassa, Spain, Pp.283-288, 2000.
- [2] K. J. Åström and T. Hägglund, PID Controllers: Theory, Design and Tuning, 2nd Edition.Instrument Soceity of America.ISBN: 1556175167, 1995.
- [3] K. Cohen and D. E. Bosett, “Fuzzy Logic NonMinimum Phase Autopilot Design”, AIAA Guidance, Navigation, and Control Conference and Exhibit, 11-14 August 2003, Austin, Texas, Paper 2003-5550.
- [4] J. Hauser, S. Sastry and G. Meyer, “Nonlinear Control Design for Slightly NonMinimum Phase Systems: Application to V/STOL Aircraft”, Automatica, vol. 28, no. 4, Pp.665-679, 1992.10.1016/0005-1098(92)90029-F
- [5] D. S. Kwon and W. J. Book, “A TimeDomain Inverse Dynamic Tracking Control of A SingleLink FlexibleManipulator”, J. Dyn. Syst. T. ASME, vol. 116, pp.193-200, 1994.
- [6] C. Kravaris and P. Daoutidis, “Nonlinear State Feedback Control of SecondOrder NonminimumPhase Nonlinear Systems”, Comput. Chem. Eng., vol. 14, no. 4/5, Pp.439-449, 1990.10.1016/0098-1354(90)87019-L
- [7] P. R. Gray and R. G. Meyer, Analysis and Design of Analog Integrated Circuits, 3rd Ed., New York, Wiley, 1993.
- [8] M. M. Seron, J. H. Braslavsky and G. C. Goodwin, Fundamental Limitations Filtering and Control, New York, Springer Verlag, 1997.
- [9] M.M. Seron, J. H. Braslavsky, P. V. Kokotovic and D. Q.Mayne, “Feedback Limitations Nonlinear Systems: From Bode Integrals to Cheap Control”, IEEE T. Automat. Contr., vol. 44, no. 4, Pp.829-833, April 1999.10.1109/9.754828
- [10] L. Qiu and E. J. Davison, “Performance Limitations of Nonminimum Phase Systems The Servomechanism Problem”, Automatica, vol. 29, no. 2, Pp.337-349, 1993.
- [11] R. H. Middleton, “Tradeoffs Linear Control System Design”, Automatica, vol. 27, no. 2, pp.281-292, 1991.
- [12] J. B. Hoagg and D. S. Bernstein, “Nonminimum Phase Zeros. IEEE Contr”, Syst. Mag., vol. 27, no. 3, Pp.45-57, 2007.
- [13] J. C. Doyle, B. A. Francis and A. R. Tannenbaum, Feedback Control Theory, New York, MacMillan, 1992.
- [14] S. Skogestad and I. Postlethwaite, Multivariable Feedback Control, New York, Wiley, 1996.
- [15] T. Kailath, Linear Systems, Englewood Cliffs, Prentice Hall, 1980.
- [16] A. P. Aguiar, J. P. Hespanha and P. V. Kokotovic, “Pathfollowing for Nonminimum Phase Systems Removes Performance Limitations”, IEEE T. Automat. Contr., vol. 50, no. 2, Pp.234-239, 2005.10.1109/TAC.2004.841924
- [17] M. Fliess, H. Marquez and R. Siraramírez, “Regulation of Nonminimum Phase Outputs: A Flatness Based Approach”, Perspectives Control Theory and Applications: A Tribute to Ioan Doré Landau, D. Normand Cyrot, Ed. London, UK, “Springer Verlag, 1998, Pp.143-164.
- [18] S. Alhiddabi and N. Mcclamroch, “Tracking and Maneuver Regulation Control for Nonlinear Nonminimum Phase Systems: Application to Flight Control”, IEEE T. Contr. Syst. T., vol. 10, no. 6, Pp.780-792, 2002.
- [19] K. J. Åström and T. Hägglund, Advanced PID Control, ISA, 2005.
- [20] B. S. Chen and T. Y. Yang, “Robust Optimal Model Matching Control Design for Flexible Manipulators”, J. Dyn. Syst. T. ASME, vol. 115, Pp.173-178, 1993.
- [21] M. T. Ho and Y. W. Tu, “PID Controller Design for A Flexible-Link Manipulator”, Proceedings of The 44th IEEE Conference On Decision and Control, and The European Control Conference 2005, Seville, Spain, December 1215, 2005, Pp.6841-6846.
- [22] R. P. Sree and M. Chidambaram, “Simple Method of Tuning PI Controllers for Stable Inverse Response Systems”, Journal of The Indian Institute of Science, 83 (May-August), pp.73-82, 2003.
- [23] Q. G. Wang, Y. Zhang and X. Guo, “Robust Closed-loop Identification with Application to Auto-tuning”, Journal of Process Control, 11, Pp.519530.
- [24] H. P. Huang, M. W. Lee and C. L. Chen, “Inverse-Based Design for A Modified PID Controller”, Journal of The Chinese Institute of Chemical Engineers, 31, Pp.225-236, 2000.
- [25] A. O’Dwyer, “A Summary of PI and PID Controller Tuning Rules for Processes with Time Delay”, IFAC PID’00, Part 1, Pp.175180, Part 2, pp.242-247, 2000.
- [26] É. Poulin and A. Pomerleau, “PID Tuning for Integrating and Unstable Processes”, IEEE Proceedings Control Theory and Application, 143, Pp.429-435.
- [27] A. O’Dwyer, “PI and PID Controller Tuning Rule Design for Processes with Delay, to Achieve Constant Gain and Phase Margins for All Values of Delay”, Proceedings of The Irish Signals and Systems Conference (N. U. I. Maynooth, Ireland), pp.96100, 2000.
- [28] I. L. Chien, “IMC-PID Controller Design an Extension”, Proceedings of The IFAC Adaptive Control Chemical Processes Conference, Copenhagen, Denmark, Pp.147-152, 1988.
- [29] K. Reinisch, “Kybernetische Grundlegen Und Beschreibung Kontinuierlicher Systems”, Veb Verlag Technik, Berlin, 1974.
- [30] Š. Bucz and A. Kozáková, “PID Controller Design for Specified Performance”, Introduction to PID Controllers: Theory, Tuning and Application to Frontier Areas, Department of Chemical Engineering, CLRI, Adyar, India, ISBN 9789533079271, 2012.
- [31] Š. Bucz, A. Kozáková and V. Veselý, “Robust PID Controller Design for Performance Based On Ultimate Plant Parameters”, IFAC Papers online: 8th IFAC Symposium On Robust Control Design ROCOND 2015, Bratislava, Slovakia, 2015, pp. 388-395.
- [32] Bucz and Š, “Engineering Methods of PID Controller Tuning for Specified Performance”, Doctoral Thesis, Slovak University of Technology Bratislava, Slovak Republic (In Slovak), 2011.
- [33] V. Rotach, “Avtomatizacija Nastrojki System Upravlenija”, Energoatomizdat, Moskva, Russia (In Russian), 1984.
- [34] K. J. Åström and T. Hägglund, “Benchmark Systems for PID Control”, IFAC PID’00, Terrasa, pp.181-182, 2000.