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双轴切换线性系统的轮廓误差有界控制

Contouring Error-Bounded Control for Biaxial Switched Linear Systems

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2026
被引 1 · 同刊同年前 7%
ABS 3

中文导读

针对轻量化结构导致柔性增加、精度下降的问题,提出一种基于模型预测控制的轮廓误差有界控制算法,在未知切换信号下保证双轴切换线性系统的轮廓精度和稳定性,并通过工业激光机床仿真验证。

Abstract

Biaxial motion control systems are widely employed in manufacturing industries, where improving throughput and reducing machine costs are critical goals. To achieve these, lightweight materials are increasingly being used in structural components, though this often introduces higher flexibility in the machine links, leading to position-dependent precision loss in the end-effector. This article addresses the challenge of maintaining contouring accuracy in such systems by proposing a novel contouring error-bounded control algorithm for biaxial switched linear systems. The algorithm employs model predictive control (MPC) to enforce state, input, and contouring error constraints across different system modes, even when mode switching is not known in advance. While the exact switching signal is unknown, the controller assumes knowledge of the minimum dwell time the system remains in each mode. The proposed algorithm guarantees recursive feasibility and ensures closed-loop system stability. The effectiveness of the method is validated through a high-fidelity simulation of a dual-drive industrial laser machine, demonstrating that the contouring error is consistently maintained within the specified tolerance.

制造工程运动控制模型预测控制切换系统