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ADAPTIVE TUNING OF A PID CONTROLLER USING NEURAL NETWORKS

Date

1994-07

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Degree Level

Masters

Abstract

System identification and adaptive control have been of interest for several years. The emergence of neural networks has added a new dimension to the paradigm of learning and adaptive control. Neural networks are distinguished by their diversity of applications. Most of the work done in the system identification area and control of chemical processes uses some form of standard back-propagation as a learning algorithm. A different learning scheme called Quick Propagation (QP) has been implemented in this thesis. This algorithm has evolved from the initial work of Scott E. Fahlman [121. The advantage of this algorithm lies in the fact that fewer tuning parameters are used. This makes it easier to implement and more general to accommodate different applications. The simulation studies presented in this work show the effectiveness of this approach in identifying a non-linear chemical process, specifically a nonisothermal continuous stirred tank reactor where an irreversible exothermic reaction is carried out in a perfectly mixed reactor. PID (Proportional, Integral, and Derivative) controllers have been the most popular controllers in the chemical industry. Several studies focused on adaptively tuning the PID gains. In this research work, the error signal was employed as a teaching signal for the Quick Propagation neural network in order to adjust the controller parameters. The results of computer simulation studies are presented, and the performance of the proposed technique is described. From these results, it is observed that the neural network is capable of tuning the PID controller parameters toward a desired target state. Furthermore, the performance of the proposed technique was compared to one of the traditional tuning techniques, the Ziegler and Nichols method. The evaluation was based on subjecting both techniques to different model uncertainties. The simulation studies demonstrated the effectiveness of the proposed approach. In this thesis, an arbitrary non-linear model and a CSTR (continuous stirred tank reactor) model were considered.

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Degree

Master of Science (M.Sc.)

Department

Electrical and Computer Engineering

Program

Electrical Engineering

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