AI Article Synopsis
- The article explores the design of an extended state observer (ESO) for uncertain nonlinear systems while addressing the challenge of limited network bandwidth.
- A dynamic event-triggered (DET) communication protocol is introduced to improve information exchange efficiency by allowing adaptive adjustments through a unique regulating mechanism.
- The study presents an innovative event-triggered Takagi-Sugeno fuzzy ESO (TSFESO) that ensures exponential convergence in estimation error dynamics, demonstrating its effectiveness with numerical examples.
Article Abstract
In this article, an extended state observer (ESO) design problem is investigated for uncertain nonlinear systems subject to limited network bandwidth. First, for rational information exchange scheduling, a dynamic event-triggered (DET) communication protocol is proposed. Different from the traditional static event-triggered strategies with fixed thresholds, an internal dynamic variable is introduced to be adaptively adjusted by a dual-directional regulating mechanism. Thus, more desirable tradeoff between observation performance and communication resource efficiency is achieved. Second, inspired by our early work on Takagi-Sugeno fuzzy ESO (TSFESO), a novel paradigm of event-triggered TSFESO is initially proposed. Third, under the DET mechanism, the TSFESO design approach is derived to carry out exponential convergence for estimation error dynamics. Finally, the effectiveness of the proposed method is verified by numerical examples. The nonlinear estimating efficiency and linear numerical tractability are integrated in TSFESO. In addition, a generalized ESO formulation is developed to allow some nonadditive uncertainties incompatible with total disturbance, such as improved event-triggered strategy, and thus, the application sphere of ESO is further expanded.
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| http://dx.doi.org/10.1109/TCYB.2022.3161271 | DOI Listing |
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