PID控制是工业过程控制中应用最广泛的方法,因为这种控制策略不仅具有简单的控制结构,而且在许多过程控制应用中都能够获得满意的控制效果。
PID control is the most common control method used in industrial process control, mainly because, despite their simplicity, they can assure satisfactory performances for a wide range of processes.
最后通过将传统组合控制策略与所提出的组合控制策略仿真比较,其结果表明新的组合控制策略能够获得令人满意的结果。
In the end, the simulations are made between a common combined control strategy and a new hybrid control strategy. The results show that the new hybrid control strategy is effective.
以矩形目的域为例,按满意控制的思想,利用线性矩阵不等式(LMI)技术,给出了待机控制策略求解的方法与实例。
Taking rectangular target-region as an example, a solution for opportunity-awaiting control is provided based on the theory of satisfactory control and linear matrix inequalities (LMI) approach.
采用新的模糊处理策略,不但可以保证系统柔性输出优先级顺序,而且能够最大程度地保证输出量在某种模糊满意度下的满意控制。
The processing strategy can not only guarantee to realize the outputs of the control system in priority order, but also make them in the optimal fuzzy satisfying degree.
为了得到令人满意的减震控制效果,可以选择、调整合适的半主动控制策略,达到最优的减震结果。
By selecting and adjusting right semi-active control strategy, we can get a satisfactory and optimal isolation control result.
本文通过对普通模糊控制器的改进,研究出一种高精度模糊控制策略,并将其应用于校直机液压伺服控制系统。最后对控制系统进行了仿真研究,取得了较为满意的效果。
This paper proposes a high accuracy fuzzy control strategy which has improved the common fuzzy controller and been applied in the alignment of the straightening hydraulic servo control system.
本文通过对普通模糊控制器的改进,研究出一种高精度模糊控制策略,并将其应用于校直机液压伺服控制系统。最后对控制系统进行了仿真研究,取得了较为满意的效果。
This paper proposes a high accuracy fuzzy control strategy which has improved the common fuzzy controller and been applied in the alignment of the straightening hydraulic servo control system.
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