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Cluster synchronization of multiple AUV systems with tan‐type Barrier Lyapunov Function and Integral Quadratic Constraints through distributed finite‐time error constraint adaptive pinning control strategy

Yue Wang, Jiayu Li, Yanchao Sun, Yipeng Zhao, Y S Huang, Hongde Qin
June 29, 2026
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Research Abstract & Technology Focus

Abstract The remarkable performance of the Autonomous Underwater Vehicle (AUV) makes it a valuable tool for exploring resources and conducting marine scientific research. Under the directed communication topology, the paper addresses the problem of distributed finite‐time error constrained adaptive cluster synchronization for heterogeneous multi‐AUV systems. To achieve cluster synchronization in multi‐AUV systems, certain AUVs are selected as pinning nodes, and a novel distributed finite‐time adaptive pinning control algorithm with adaptive pinning gains is proposed. A tan‐type barrier Lyapunov function (BLF) is employed to constrain the position and orientation errors. In addition, the integral quadratic constraints (IQCs) are employed to characterize nonlinear model uncertainties, and an adaptive strategy is designed to estimate the model uncertainties. Then, external ocean disturbances are estimated by a neural network (NN) adaptive mechanism. It is proved that position and orientation errors converge to a small neighborhood of zero in finite time. Finally, to validate the effectiveness of the proposed strategy, simulation and comparative studies are conducted.
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What is the core focus of the research titled 'Cluster synchronization of multiple AUV systems with tan‐type Barrier Lyapunov Function and Integral Quadratic Constraints through distributed finite‐time error constraint adaptive pinning control strategy'?

This literature focuses on: Abstract The remarkable performance of the Autonomous Underwater Vehicle (AUV) makes it a valuable tool for exploring resources and conducting marine scientific research. Under the directed communication topology, the paper addresses the problem o...

What other academic literature is closely related to 'Cluster synchronization of multiple AUV systems with tan‐type Barrier Lyapunov Function and Integral Quadratic Constraints through distributed finite‐time error constraint adaptive pinning control strategy'?

Yes, highly correlated activity was mapped. An entry titled 'Adaptive Data-Driven Control of Autonomous Underwater Vehicles: Bridging the Gap Between Simulation and Experimental Baseline via LSTM-MPC' discusses this: This study proposes a robust data-driven control framework, LSTM-MPC, designed to enhance the velocity stabilization of Autonomous Underwater Vehic...

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