Publication Type : Journal
Publisher : Elsevier
Source : Journal of the Franklin Institute
Campus : Chennai
School : School of Engineering
Year : 2024
Abstract : This paper presents a novel approach to event-triggered output feedback control of polynomial fuzzy systems that exhibit unmeasurable system states. To stabilize the system state, a fuzzy model-based event-triggered control scheme is proposed based on output measurement information. The transmission frequency is modulated using a periodic event-trigger protocol, which is scheduled by resorting to a set of historically released packets to ensure better dynamic performance. The event-triggering condition uses the current samples to determine the next trigger and also takes into account the triggering time-dependent gain parameter, thereby significantly reducing network burden. The proposed approach ensures the existence of both polynomial controller gain and event-triggered parameters by satisfying sufficient conditions based on the sum-of-squares approach and the polynomial fitting approximation algorithm. The addressed system’s stability conditions are solved using MATLAB SOSTOOLS. Three numerical examples, including an invented pendulum model, illustrate the superiority and applicability of the methodology. The main contributions of this work are the introduction of a triggering instant dependent periodic event-triggered output feedback control design, which reduces network traffic and enhances dynamic performance. The approach is validated through numerical examples, which demonstrate its superiority and applicability.
Cite this Research Publication : P. Selvaraj, O.M. Kwon, S.H. Lee, and R. Sakthivel, Event-triggered output feedback control design for polynomial fuzzy systems, Journal of the Franklin Institute, 361 (2), 1078-1092, Jan. 2024. (IF: 4.1) ISSN No. 0016-0032