Litcius/Paper detail

Output regulation for time–delayed Takagi–Sugeno fuzzy model with networked control system

Muhammad Shamrooz Aslam, Zhenhua MA

2023Hacettepe Journal of Mathematics and Statistics16 citationsDOIOpen Access PDF

Abstract

This article studies $H_{\infty}$ control problem based on the event--triggered scheme with time delays for the synchronization of an chaotic system represented by delayed Takagi--Sugeno models. Firstly, this method depending on two scenarios: a) Each local subsystem integrated that the delayed T-S fuzzy model for the same value of input matrices for the networked system and b) This is near steady-state zero-error diversification has to all be the same local subsystems. Generally, in the case of fuzzy regulation, these in lieu of generating the fuzzy regulator as a result of linear local controllers, circumstances were adjusted by addressing the issue of fuzzy regulation for the delayed Takagi--Sugeno models fuzzy model. Then, a delayed Takagi--Sugeno uses a fuzzy system to model the non--linear regulator. On the other hand, communication delays are a vital factor that cannot be ignored. To tackle the networked induced delay initially, author attempt to implement the event--triggered scheme for output regulation which reduce the cost of network transmission. By constructing a Lyapunov functional and making use of event--triggered method, some suitable circumstances that ensure asymptotic stability of $H_{\infty}$ performance index for the resulting model were derived. Additionally, as the variations of the aforementioned results, two scenarios were presented. Our developed approaches are demonstrated by a final example illustrating their superiority, usefulness and reliability.

Topics & Concepts

Control theory (sociology)Fuzzy logicMathematicsFuzzy control systemStability (learning theory)Synchronization (alternating current)ChaoticComputer scienceControl (management)Topology (electrical circuits)Artificial intelligenceCombinatoricsMachine learningNeural Networks Stability and SynchronizationChaos control and synchronizationDistributed Control Multi-Agent Systems