Multi-model Self-learning Control for Turbine Valving Control

Author

Xiaofang, Yuan ; Yaonan, Wang ; Lianghong, Wu

Author_Institution

Hunan Univ., Changsha

fYear

2007

Firstpage

213

Lastpage

217

Abstract

As turbine valving control of synchronous generator faced practical challenges as nonlinear characteristics, large-scale operating ranges and changing operation points, this paper proposed a multi-model self-learning controller (MMSC). Firstly fuzzy logic controller (FLC) rules for plant at various operation points were derived from operation samples. Then fuzzy clustering algorithm was employed to remove redundant operating models to N kinds of typical models, this reached N sub-model FLC (SFLC). Then control output of MMSC was just the output of SFLC multiplying their respective weights, which were decided by their matching degree. For the self-learning of SFLC, support vector machines was employed. Simulations show the effective and damping ability of the proposed MMSC.

Keywords

control engineering computing; fuzzy control; machine control; nonlinear control systems; pattern clustering; self-adjusting systems; support vector machines; synchronous generators; turbines; fuzzy clustering; fuzzy logic controller rules; multimodel self-learning control; nonlinear characteristics; support vector machines; synchronous generator; turbine valving control; Control systems; Fuzzy logic; Power system control; Power system dynamics; Power system modeling; Power system simulation; Power system stability; Support vector machines; Synchronous generators; Turbines; fuzzy logic; learning control; multi-model; nonlinear control; power system; support vector machines;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference, 2007. CCC 2007. Chinese

Conference_Location

Hunan

Print_ISBN

978-7-81124-055-9

Electronic_ISBN

978-7-900719-22-5

Type

conf

DOI

10.1109/CHICC.2006.4347155

Filename

4347155