An approach to optimal design of stabilizing PID controllers for time-delay systems

Pingkang Li, Peng Wang, Xiuxia Du
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引用次数: 5

Abstract

A novel approach to find the optimal stabilizing regions for PID control systems with time-delay is proposed. The method is based on the observation that the stabilizing PID compensators form a set of polyhedral sets in the three-dimensional parameter space. To avoid the lack of constraints problem, which prohibits the optimization of three PID controller parameters, the robustness constraint is integrated into the stable region determination algorithm. The constraint defines a set of controller parameters such that the maximum sensitivities are less than prescribed values. Compared with previous results it is considerably simpler and faster to determine such parameter regions by combining a so-called dual-locus diagram with the maximum sensitivity constrains with the integral gain Ki as the system performance measure. The approach presented works well without sweeping over parameters, and do not need complex numerical calculations to achieve the required performance. The simulations have shown the effectiveness of the method.
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时滞系统稳定PID控制器的优化设计方法
提出了一种寻找具有时滞的PID控制系统最优稳定区域的新方法。该方法是基于观察稳定PID补偿器在三维参数空间中形成一组多面体集。为了避免缺乏约束而无法对PID控制器的三个参数进行优化的问题,在稳定区域确定算法中加入了鲁棒性约束。约束定义了一组控制器参数,使最大灵敏度小于规定值。与以往的结果相比,通过将具有最大灵敏度约束的所谓双轨迹图与积分增益Ki结合作为系统性能度量来确定这些参数区域要简单得多,而且速度要快得多。所提出的方法不需要扫过参数,也不需要复杂的数值计算来达到所需的性能。仿真结果表明了该方法的有效性。
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