Affiliation:
1. Faculty of Physics, Lomonosov Moscow State University, 119991 Moscow, Russia
Abstract
This paper presents a methodology for synthesizing discrete MIMO PID controllers through iterative solutions of LMIs. It justifies the necessity of direct synthesis of discrete controllers in digital control systems. The proposed methodology allows for synthesizing an LTI controller for an LTV plant model, ensuring the robust stability of the synthesized system. Robustness is further ensured by the small-gain theorem and a novel approach to loop shaping, enabling the use of arbitrary shape functions. As a result, this methodology provides a broad statement of the problem with performance criteria necessary for practical application in control systems. Numerical examples are used to illustrate the methodology, which is implemented using the MATLAB toolbox, freely available for use.
Funder
Russian Science Foundation
Russian Foundation for Basic Research
Reference52 articles.
1. MIMO PID tuning via iterated LMI restriction;Boyd;Int. J. Robust Nonlinear Control,2016
2. The future of PID control;Control Eng. Pract.,2001
3. Åström, K.J., and Hägglund, T. (2006). Advanced PID Control, ISA—The Instrumentation, Systems, and Automation Society.
4. When is PID a good choice?;Soltesz;IFAC-PapersOnLine,2018
5. LPV decoupling for control of multivariable systems;Mohammadpour;Int. J. Control,2011