In this paper, the problem of actuator saturation control of a benchmark structure using hedge-algebras-based fuzzy controller (HAC) is presented. In HAC, linguistic values of linguistic terms are obtained through semantically quantifying mappings (SQMs) based on few fuzziness parameters of each linguistic variable without using any fuzzy set and inherent order relationships between linguistic values of each linguistic variable are always ensured. Hence, the design of a HAC leads to determining parameters of SQMs, which are fuzziness measures of primary terms and linguistic hedges occurring in a fuzzy model. As a case study, a HAC is designed to actuator saturation control of a benchmark structure with active bracing system (ABS) subjected to earthquake excitation. Control performance of the controller is also discussed in order to show advantages of the proposed method.
Actuator saturation control of a benchmark structure using hedge-algebras-based fuzzy controller
25.05.2015
doi:10.15625/0866-7136/37/2/5144
Vietnam Journal of Mechanics; Vol 37, No 2 (2015); 91-104 ; 0866-7136
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC: | 629 |
CONTROL OF A PENDULUM USING HEDGE ALGEBRAS CONTAINING ACTUATOR SATURATION
BASE | 2015
|A HEDGE ALGEBRAS BASED REASONING METHOD FOR FUZZY RULE BASED CLASSIFIER
BASE | 2019
|Output Regulation with Actuator Saturation for the Benchmark Active Control Technology Model
Online Contents | 2010
|