🌙

具有非均匀时变时滞和扰动的约束自主水下航行器鲁棒一致性

Robust Consensus of Constrained AUVs With Non-Uniform Time-Varying Delays and Disturbances

IEEE Transactions on Cybernetics · 2025
被引 0
ABS 3

中文导读

针对受非完整约束、通信时滞和海洋扰动的自主水下航行器网络,提出一个系统化设计框架,通过坐标变换、分布式协议和线性矩阵不等式实现鲁棒编队跟踪,并首次引入在线优化提升运动控制质量。

Abstract

Constrained consensus formation tracking of autonomous underwater vehicle (AUV) networks is a challenging problem to solve, especially when the networks are possibly subject to nonuniform, time-varying communication delays and marine disturbances. This article presents a systematic design framework to achieve formation objectives while ensuring network stability under such uncertainties. First, a coordinate transformation is applied to the AUV kinematics to address nonholonomic constraints. A distributed consensus protocol is then used to coordinate the motion of vehicles, and utilizing the transformed kinematic model, the desired linear velocity and approach angles are determined accordingly. By employing the graph representation and Lyapunov-Krasovskii functional method, a robust stability criterion is derived in terms of linear matrix inequalities (LMIs) for a delayed network with disturbances. To improve the quality of AUV motion control, on top of the conventional backstepping controller, a sequential optimization procedure is developed for the first time, which enables optimizing the robust performance online while respecting motion constraints. Moreover, the overall stability of the resulting formation system is established. Finally, comparative simulations are carried out to verify the effectiveness and superiority of the proposed method.

自主水下航行器分布式一致性时滞系统鲁棒控制编队控制