Author:
Baliuta S.M., ,Chernenko P.O.,Kuievda Iu.V.,Kuevda V.P., , ,
Abstract
An identification procedure of mathematical model of turbine generator unit in the presence of uncertainty is studied for using in the interconnected robust control automated system. The procedure is based on “worst-case” identification approach. The controlled object is modelled by the matrix transfer function with additive uncertainty. The identification consists of two stages: first is to identify transfer function with nominal parameters with the use of prediction error minimization algorithm, second – to determine weight function in additive uncertainty model using finding the worst-case log-magnitude curve of uncertainties. Identification is performed in active way, determining datasets for each control channel from individual experiments. A linear frequency-modulated signal is selected as the input test disturbance. A simulation model of the controlled object is constructed and the numerical experiment is conducted using the identification procedure. References 11, figures 7.
Publisher
National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka)
Subject
Electrical and Electronic Engineering,Energy Engineering and Power Technology
Reference11 articles.
1. Kuievda Yu., Baliuta S. Synthesis of robust interconnected power system stabilizers for turbine generators in sugar factories. Ukrainian Journal of Food Science. 2017. Vol. 5. Issue 2. Pp. 256-266. DOI: https://doi.org/10.24263/2310-1008-2017-5-2-10
2. Baliuta S.M., Kuievda Iu.V. Synthesis of robust interconnected system stabilizers for turbine generator units under uncertainty. XXV International Conference on Automatic Control (Automatics-2018). September 18-19, 2018. Lviv, Ukraine. Pp. 149-150.
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