AI Article Synopsis
- The article presents two adaptive tracking control methods designed for interconnected systems dealing with unknown dynamics while ensuring specific performance.
- By leveraging the unique properties of radial basis function neural networks, the article addresses challenges associated with unpredictable interactions among subsystems.
- It also introduces an event-triggered strategy to improve control precision and reduce communication load within the system, supported by a practical example that showcases the proposed scheme's effectiveness.
Article Abstract
This article proposes two adaptive asymptotic tracking control schemes for a class of interconnected systems with unmodeled dynamics and prescribed performance. By applying an inherent property of radial basis function (RBF) neural networks (NNs), the design difficulties aroused from the unknown interactions among subsystems and unmodeled dynamics are overcome. Then, in order to ensure that the tracking errors can be suppressed in the specified range, the constrained control problem is transformed into the stabilization problem by using an auxiliary function. Based on the adaptive backstepping method, a time-triggered controller is constructed. It is proven that under the framework of Barbalat's lemma, all the variables in the closed-loop system are bounded and the tracking errors are further ensured to converge to zero asymptotically. Furthermore, the event-triggered strategy with a variable threshold is adopted to make more precise control such that the better system performance can be obtained, which reduces the system communication burden under the condition of limited communication resources. Finally, an illustrative example is provided to demonstrate the effectiveness of the proposed control scheme.
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| http://dx.doi.org/10.1109/TNNLS.2021.3129228 | DOI Listing |
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