一类具有执行器饱和的非线性系统抗饱和方法研究

针对一类具有执行器饱和的非线性控制系统, 提出了一种双环路的动态抗饱和补偿方案, 为执行器输出受限的非线性系统提供了新思路. 与现有结果相比, 所提方案能更好地改善闭环系统控制性能. 考虑执行器饱和约束, 通过优化执行器饱和发生前后控制器的状态误差的积分性能指标, 综合设计一类同时包含传统抗饱和及延迟抗饱和补偿器两个环路的改进抗饱和补偿器, 这类补偿器有效地抑制了饱和现象对控制器的影响, 从而降低了执行器饱和对控制系统性能的影响. 当系统存在高饱和度现象时, 利用该双环路抗饱和补偿器, 可以最大程度弱化饱和对系统性能的影响. 最后, 利用输入状态稳定 (Input state stability, ISS) 定理分析和证明了该闭环系统全局一致有界稳定. 并通过舵机执行器受约束的舵减横摇系统的仿真试验, 验证了该方案的有效性及优越性.

An Anti-saturation Method for a Class of Nonlinear Systems with Actuator Saturation

For a class of nonlinear control systems with actuator saturation, a dual-loop anti-saturation compensation scheme is proposed in this paper, which provides a new idea for the limited-output actuator of a nonlinear system. Compared with existing solutions, the proposed scheme can improve the performance of the closed-loop system. Considering the actuator saturation constraints, by optimizing the integral performance index of state error of feedback controller which occurs before and after actuator saturation, we design a class of improved anti-saturation compensators that contain both traditional anti-saturation and delayed anti-saturation compensators. Such compensations effectively suppress the effects of saturation on the controller, thus reducing actuator saturation effects on the control system performance. Furthermore, when the system has high saturation with this dual-loop anti-saturation compensators, it can significantly attenuate the influence of saturation upon system performance. We then utilize the input state stability (ISS) to analyze and prove the theorem for the closed-loop system to be globally and uniformly bounded stable. Finally, simulation results demonstrate the effectiveness and superiority of the proposed method.