Journal of Control Engineering and Applied Informatics
RLS Estimation of Uncertainties in the Model Parameters and Decentralized Adaptive PI controller Using PSO for Chemical Multivariable Coupled System
Abstract
This paper proposes a decentralized adaptive PSO-PI (particle swarm optimization-Proportional Integral) control strategy for an uncertain coupled multivariable system using input/output data. The example used to be examined is that of a distillation column, in which the model is considered unknown as well as these uncertainties. First, we have developed a recursive least squares (RLS) with exponential forgetting factor to estimate the parameters of the nominal system and these uncertainties. Then, the design of the decentralized adaptive PSO-PI controller is developed by the inverted decoupling network combined with the PSO-PI controllers, and all updated through the estimated parameters using RLS to get the adaptive controllers. To automatically adjust the parameters of the PSO-PI controllers with robustness within the closed-loop, a tuning formula is developed based on the fitness function of the PSO technique. The obtained results in comparative form with IMC-PI controller demonstrate that the proposed approach can find better performance for estimating and controlling multivariable process with a nominal model and variations of gains for different setpoint changes and disturbance rejection.
Keywords
Multivariable systems, recursive least squares (RLS), Decentralized control, particle swarm optimization (PSO), identification.