A SWITCHING IMC-PID CONTROLLER DESIGN FOR LAG DOMINATING PROCESSES WITH REAL-TIME VALIDATON, 171-182.

Ujjwal M. Nath, Chanchal Dey, and Rajani K. Mudi

References

  1. [1] S. Saxena and Y.V. Hote, Advances in internal model control technique: a review and future prospects, IETE Technical Review, 29(6), 2012, 461–472.
  2. [2] D.E. Rivera, S. Skogested, and M. Morari, Internal model control. 4. PID controller design, Industrial Engineering Chemical Process Design and Development, 25(1), 1986, 252–265.
  3. [3] I.L. Chien, IMC–PID controller design-an extension, IFAC Proceedings Series, 6, 1988, 147–152.
  4. [4] M. Morari and E. Zafiriou, Robust process control (Englewood Cliffs, NJ: Prentice-Hall, 1989).
  5. [5] S. Skogestad, Simple analytic rules for model reduction and PID controller tuning, Journal of Process Control, 13(4), 2003, 291–309.
  6. [6] J. Lee, W. Cho, and T.F. Edgar, Simple analytic PID controller tuning rules revisited, Industrial & Engineering Chemistry Research, 53(13), 2014, 5038–5047.
  7. [7] M. Shamsuzzoha, IMC based robust PID controller tuning for disturbance rejection, Journal of Central South University, 23(3), 2016, 581–597.
  8. [8] S. Skogestad, Tuning for smooth PID control with acceptable disturbance rejection, Industrial & Engineering Chemistry Research, 45(23), 2006, 7817–7822.
  9. [9] A. Ali and S. Majhi, PI/PID controller design based on IMC and percentage overshoot specification to controller set point change, ISA Transactions, 48(1), 2009, 10–15.
  10. [10] B. Vanavil, A.V.N.L. Anusha, M. Perumalsamy, and A. Seshagiri Rao, Enhanced IM–PID controller design with lead-lag filter for unstable and integrating processes with time delay, Chemical Engineering Communications, 201(11), 2014, 1468–1496.
  11. [11] Ch. Anil and R. Padma Sri, Tuning of controllers for integrating systems using direct synthesis method, ISA Transactions, 57, 2015, 211–219.
  12. [12] D. Liberzon, Switching in systems and control (New York: Springer, 2003), 3–15.
  13. [13] S. Armaghan, A. Moridi, and A.K. Sedigh, Design of a switching PID controller for a magnetically actuated mass spring damper, Proc. of the World Congress on Engineering 2011, III, WCE 2011, London, UK, 2011.
  14. [14] G. Marchetti, M. Barolo, L. Jovanovic, H. Zisser, and D.E. Seborg, An improved PID switching control strategy for Type 1 diabetes, IEEE Transactions on Biomedical Engineering, 55(3), 2008, 857–865.
  15. [15] M. Shafiq, Internal model control structure using adaptive inverse control strategy, ISA Transactions, 44(3), 2005, 353–362.
  16. [16] D. Rupp and L. Guzzella, Adaptive internal model control with application to fueling control, Control Engineering Practice, 18(8), 2010, 873–881.
  17. [17] U.M. Nath, S. Datta, and C. Dey, Centralized auto-tuned IMC- PI controllers for a real time coupled tank process, International Journal of Science, Technology and Management, 4(1), 2015, 1094–1102.
  18. [18] U.M. Nath, C. Dey, and R.K. Mudi, Fuzzy tuned model based control for level and temperature processes, Microsystem Technologies, 25(3), 2019, 819–827.
  19. [19] C. Grimholt and S. Skogestad, Optimal PI and PID control of first order plus delay processes and evaluation of the original and improved SIMC rules, Journal of Process Control, 70, 2018, 36–46.
  20. [20] Feedback Instruments Ltd, User manual: Coupled tank control experiments – 22-230 (East Sussex, UK: Feedback Instruments Ltd., 2010).
  21. [21] D. Simhachalam, S. Talukder, R.K. Mudi, and C. Dey, Enhanced critical point assessment with relay feedback, Mechatronic Systems and Control, 46(4), 2018, 170–180. 181
  22. [22] P. Mitra, C. Dey, and R.K. Mudi, Dynamic set point weighting for Fuzzy PID controller, Mechatronic Systems and Control, 45(3), 2017, 142–153.
  23. [23] C. Dey, R.K. Mudi, and T.T. Lee, Dynamic set point weighted PID controller, Control and Intelligent Systems, 37(4), 2009, 212–219.
  24. [24] B.S. Patil, L.M. Waghmare, and M.D. Uplane, Design of PID controllers integrator system with time delay and double integrating processes, International Journal of Instrumentation and Control Systems, 7(3), 2017, 1–7.
  25. [25] D. Chien and D.E. Seborg, PI/PID controller design based on direct synthesis and disturbance rejection, Industrial & Engineering Chemistry Research, 41(19), 2002, 4807–4822.
  26. [26] M. Shamsuzzoha and M. Lee, IMC–PID controller design for improved disturbance rejection of time delayed processes, Industrial & Engineering Chemistry Research, 46(7), 2007, 2077–2091.
  27. [27] S. Majhi, Relay based identification of processes with time delay, Journal of Process Control, 17, 2007, 99–101.
  28. [28] U.M. Nath, C. Dey, and R.K. Mudi, Designing of IMC-PID controller with second-order filtering for lag and delay dominating process based on suitable dead time approximation. Asia Pacific Journal of Chemical Engineering, DOI: 10.1002/apj.2359, 2019.

Important Links:

Go Back