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四轮滑移转向小型自主地面车辆的分数阶PI类轨迹跟踪控制

Fractional-Order PI-Like Trajectory Tracking Control of Four-Wheel Skid Steering Small Autonomous Ground Vehicles

IEEE Transactions on Cybernetics · 2026
被引 0
ABS 3

中文导读

针对四轮滑移转向小型自主地面车辆,提出一种预设性能分数阶PI控制器,在保证瞬态和稳态性能的同时简化结构,仿真和实验验证了其优于传统PID。

Abstract

This article addresses the trajectory tracking control problem for four-wheel skid-steering small autonomous ground vehicles (FWSAGVs) subject to uncertain friction resistance, external disturbances, and parametric variations. Existing FWSAGV tracking methods usually focus on stability and robustness, but often lack explicit quantitative guarantees on transient and steady-state performance, or rely on relatively complex controller structures that are not well-suited for onboard implementation. To address this issue, a prescribed-performance fractional-order PI-like controller (PP-FOPIC) is proposed. By combining the prescribed performance control (PPC) with a low-complexity fractional-order PI-like structure, the proposed method explicitly constrains the tracking error evolution while avoiding complex online approximators and recursive backstepping designs. In addition, particle swarm optimization (PSO) is introduced to tune the key controller parameters automatically and reduce the subjectivity of manual tuning. Comparative simulations and real-world experiments demonstrate that the proposed method achieves better tracking accuracy, stronger robustness, and lower actuator overload than PP-IOPIC and proportional-integral-differential (PID). In particular, real-world hexagonal-trajectory experiments provide further evidence of its control effectiveness and practical applicability, with an average onboard execution time of 8.62 ms and a total actuator overload rate of 2.8740%.

自动控制轨迹跟踪地面车辆分数阶控制