自主水面艇的受限安全协同机动:一种控制屏障函数方法

Constrained Safe Cooperative Maneuvering of Autonomous Surface Vehicles: A Control Barrier Function Approach

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2024
被引 26
ABS 3

中文导读

研究了一种在障碍物环境中,利用控制屏障函数实现多艘自主水面艇安全协同机动的方法,通过设计性能边界和扰动观测器,确保系统稳定与安全。

Abstract

This article investigates a constrained safe cooperative maneuvering method for a group of autonomous surface vehicles (ASVs) with performance-quantized indices in an obstacle-loaded environment. Specifically, an avoidance-tolerant prescribed performance (ATPP) with one-sided tunnel bounds is designed to predetermine the cooperative maneuvering performance of multiple ASVs. Next, an auxiliary system is constructed to modify performance bounds of ATPP for tolerating possible collision avoidance actions of ASVs. In the guidance loop, nominal surge and yaw guidance laws are developed using the ATPP-based transformed relative distance and heading errors. A barrier-certified yaw velocity protocol is proposed by formulating a quadratic optimization problem, which unifies the nominal yaw guidance law and CBF-based collision-free constraints. In the control loop, two prescribed-time disturbance observers (PTDOs) are devised to estimate unknown external disturbances in the surge and yaw directions. The antidisturbance control laws are designed to track the guidance signals. By the stability and safety analysis, it is proved that error signals of the proposed closed-loop system are bounded and the multi-ASV system is input-to-state safe. Finally, simulation results are used to demonstrate the effectiveness of the presented constrained safe cooperative maneuvering method.

自主水面艇协同控制安全机动控制屏障函数避障