References
- Åström KJ, Murray RM. Feedback Systems: An Introduction for Scientists and Engineers. Princeton: Princeton University Press; 2008.
- Seborg DE, Edgar TF, Mellichamp DA, Doyle FJ. Process Dynamics and Control, 4th Edition. New York: Wiley; 2016.
- Åström KJ, Hägglund T. Advanced PID Control. Research. Triangle Park; 2005.
- Liu T, Wang QG, Huang HP. A tutorial review on process identification from step or relay feedback test. Journal of Process Control. 2013; 23(10):1597-1623.
- Skogestad S. Simple analytic rules for model reduction and PID controller tuning. Journal of Process Control. 2003; 13(4):291-309.
- Ljung L. System Identification: Theory for the User, 2nd Edition. New York: Prentice Hall; 1999.
- Söderström T, Stoica P. System Identification, 2nd Edition. New York: Prentice Hall; 2001.
- Ahmed S., Huang B, Shah SL. Novel identification method from step response. Control Engineering Practice. 2007; 15(5):545-556.
- Ahmed S, Huang B, Shah SL. Identification from step responses with transient initial conditions. Journal of Process Control. 2008; 18(2):121-130.
- Liu T, Huang B, Qin SJ. Bias-eliminated subspace model identification under time-varying deterministic type load disturbance. Journal of Process Control. 2015; 25:41-49.
- Hou J, Liu T, Wang QG. Recursive subspace identification subject to relatively slow time-varying load disturbance. International Journal of Control. 2017; 91(3):622-638.
- Dong S., Liu T, Wang W, Bao J, Cao Y. Identification of discrete-time output error model for industrial processes with time delay subject to load disturbance. Journal of Process Control. 2017; 50:40-55.
- Li LJ, Dong TT, Zhang S, Zhang XX, Yang SP. Time-delay identification in dynamic processes with disturbance via correlation analysis. Control Engineering Practice. 2017; 62:92-101.
- Kon J, Yamashita Y, Tanaka T, Tashiro A, Daiguji M. Practical application of model identification based on ARX models with transfer functions. Control Engineering Practice. 2013; 21(2):195-203.
- Hwang SH, Lai ST. Use of two-stage least-squares algorithms for identification of continuous systems with time delay based on pulse responses. Automatica. 2004; 40 (9):1561-1568.
- Yan R, Liu T, Chen F, Dong S. Gradient-based step response identification of overdamped processes with time delay. Systems Science & Control Engineering. 2015; 3(1):504-513.
- RamVD, Chidambaram M. On-line controller tuning for critically damped SOPTD systems. Chemical Engineering Communications. 2014; 202(1):48-58.
- Du YY, Tsai JS, Patil H, Shieh LS, Chen Y. Indirect identification of continuous-time delay systems from step responses. Applied Mathematical Modelling. 2011; 35(2):594-611.
- Liu Q, Shang C, Huang D. Efficient low-order system identification from low-quality step response data with rank-constrained optimization. Control Engineering Practice. 2021; 107:104671.
- Jin Q, Liu Q, Huang B. Control Design for Disturbance Rejection in the Presence of Uncertain Delays. IEEE Transactions on Automation Science and Engineering. 2017; 14(4):1570-1581.
- Sung SW, Lee J, Lee IB. Process Identification and PID Control. Wiley-IEEE Pres. 2009.
- Sun L, Xue W, Li D, Zhu H, Su Z. Quantitative tuning of active disturbance rejection controller for FOPTD model with application to power plant control. IEEE Transactions on Industrial Electronics. 2022; 69(1):805-815.
- O'Dwyer A. Handbook of PI and PID Controller Tuning Rules, 3rd Edition. Imperial College Press; 2009.
- Dahlin EB. Designing and tuning digital controllers. Instruments and Control Systems. 1968; 41(6):77-83.
- Rivera DE, Morari M, Skogestad S. Internal model control: PID controller design. Industrial & Engineering Chemistry Process Design and Development. 1986; 25(1):252-265.
- Veronesi M, Visioli A. Performance Assessment and Retuning of PID Controllers. Industrial & Engineering Chemistry Research. 2009; 48(5):2616-2623.
- Grimholt C, Skogestad S. Optimal PI and PID control of first-order plus delay processes and evaluation of the original and improved SIMC rules. Journal of Process Control. 2018; 70:36–46.
- Veronesi M, Visioli A. Improving lambda tuning of PI controllers for load disturbance rejection. In Proceedings of the 26th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA); 2021; 1-6.
- Hägglund T. A unified discussion on signal filtering in PID control. Control Engineering Practice. 2013; 21(8):994-1006.
- Oliveira PM, Hedengren JD. An APMonitor temperature lab PID control experiment for undergraduate students. In Proceedings of the 24th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA). 2019; 790-797.
- Veronesi M, Visioli A. On the Selection of Lambda in Lambda Tuning for PI(D) Controllers. IFAC-PapersOnLine. 2020; 53(2):4599-4604.
- Saxena S, Hote YV. Stabilization of perturbed system via IMC: An application to load frequency control. Control Engineering Practice. 2017; 64:61-73.
- Pintelon R, Schoukens J. System Identification: A Frequency Domain Approach, 2nd Edition. Wiley; 2012.
- Rzońca D, Sadolewski J, Stec A, Świder Z, Trybus B, Trybus L. Developing a multiplatform control environment. Journal of Automation, Mobile Robotics and Intelligent Systems. 2019; 13(4):73-84.
- EN 61131-3, Programmable controllers – Part 3: Programming languages (IEC 61131-3:2013), International Standard; 2013.