C. Dey,∗ R.K. Mudi,∗∗ and T.-T. Lee∗∗∗
[1] K.J. ˚Astr¨om & T. H¨agglund, The future of PID control, ControlEngineering Practice, 9(11), 2001, 1163–1175. [2] L. Desborough & R. Miller, Increasing customer value of indus-trial control performance monitoring – Honeywell’s experience.Proc. Sixth Int. Conf. Chemical Process Control, Arizona,USA, 2002, 169–189. [3] A. O’Dwyer, Handbook of PI and PID controller tuning rules(London: Imperial College Press, 2003). [4] J.G. Ziegler & N.B. Nichols, Optimum setting for automaticcontrollers, Trans. ASME, 64, 1942, 759–768. [5] K.H. Ang, G. Chong, & Y. Li, PID control system analysis,design, and technology, IEEE Transactions Control Systemsand Technology, 13(4), 2005, 559–576. [6] Y. Li, K.H. Ang, & G. Chong, PID control system analysis anddesign, IEEE Control Sys. Magazine, February 2006, 32–41. [7] J.C. Basilio & S.R. Matos, Design of PI and PID controllerswith transient performance specification, IEEE Transactionson Education, 45(4), 2002, 364–370. [8] K.J. ˚Astr¨om & T. H¨agglund, Revisiting the Ziegler–Nicholsstep response method for PID control, Journal of ProcessControl, 14(6), 2004, 635–650. [9] S. Skoczowski, S. Domek, & K. Pietrusewicz, Robust PIDmodel following control, Control and Intelligent Systems, 34(3),2006, 186–193. [10] B. Hemici, L. Nezli, M. Tadjine, & M.S. Boucherit, RobustPID/back steeping control design for permanent magnet syn-chronous motor drive, Control and Intelligent Systems, 34(3),2006, 193–205. [11] R.K. Mudi, C. Dey, & T.T. Lee, An improved auto-tuningscheme for PI controllers, ISA Trans., 47(1), 2008, 45–52. [12] K.J. ˚Astr¨om & T. H¨agglund, Automatic tuning of PID con-trollers (Research Triangle Park, NC: Instrument Society ofAmerica, 1988). [13] C.C. Hang, K.J. ˚Astr¨om, & W.K. Ho, Refinements of Ziegler–Nichols tuning formula, IEE Proceedings -D, 138(2), 1991,111–118. [14] K.J. ˚Astr¨om & T. H¨agglund, PID controllers: Theory, Designand Tuning (Research Triangle Park, NC: Instrument Societyof America, 1995). [15] A. Leva & A.M. Colombo, Method for optimizing set-pointweights in ISA-PID auto tuners, IEE Proceedings-ControlTheory and Applications, 146(2), 1999, 137–146. [16] M. Chidambaram, Set point weighted PI/PID controllers,Chemical Engineering Communications, 179(1), 2000, 1–13. [17] G. Prashanti & M. Chidambaram, Set-point weighted PID con-trollers for unstable systems, Journal of the Franklin Institute,337, 2000, 201–215. [18] R. Padama Sree & M. Chidambaram, Set point weightedPID controllers for unstable systems, Chemical EngineeringCommunications, 192(1), 2005, 1–13. [19] R. Padama Sree & M. Chidambaram, Simple method ofcalculating set point weighting parameter for unstable systemswith a zero, Computers and Chemical Engineering, 28, 2004,2433–2437. [20] C.C. Hang & L. Cao, Improvement of transient response bymeans of variable set point weighting, IEEE Transactions onIndustrial Electronics, 43(4), 1996, 477–484. [21] C. Dey, R.K. Mudi, & T.T. Lee, A dynamic set point weightingbased Ziegler–Nichols tuned PI controller, Proc. Asian Conf.on Intelligent Systems & Networks, India, 2006, 6–10.218 [22] A. Visioli, Fuzzy logic based set-point weighting tuning ofPID controllers, IEEE Transactions on Systems, Man, andCybernetics, 29(6), 1999, 587–592. [23] A. Visioli, Tuning of PID controllers with fuzzy logic, IEEProceedings-Control Theory and Applications, 148(1), 2001,1–8. [24] K.J. ˚Astr¨om, C.C. Hang, P. Persson & W.K. Ho, Towardsintelligent PID control, Automatica, 28(1), 1992, 1–9.
Important Links:
Go Back
