针对烧结终点控制提出前馈反馈模糊控制的方法。
A feedforward feedback fuzzy control scheme is presented for the control of sinter burn through point.
提出了天然气内燃发电机组频率采用模糊前馈补偿和模糊pid反馈协调控制的方法,并设计了控制器。
A new frequency control scheme using fuzzy feedforward compensation and fuzzy - PID for natural gas engine generating set was proposed and the controller was designed.
该系统包括设定值调节器、神经网络模糊前馈控制器、模糊反馈控制器和单元机组。
The intelligent control system consists of reference governor, neuro-fuzzy feedforward controllers, fuzzy feedback controllers and fossil-fuel power unit (FFPU).
在前馈控制器设计思想的启发下,提出了一种基于神经模糊系统的自适应前馈-反馈控制系统。
Motivated by the designing idea of conventional feedforward control, an adaptive feedback-feedforward control scheme based on neuro-fuzzy system is proposed.
最后给出系统结构图和程序流程简图,并将模糊控制运行曲线与前馈-反馈控制运行曲线进行了比较。
The diagram of system structure and the simplified program flowchart are given. In addition, the operational curves of both fuzzy control and feedforward feedback control are compared.
运用模糊控制理论研制出烧结终点位置模糊控制模型。提出了前馈-反馈控制方法。
Developed the fuzzy control model of sintering burning-through-point with fuzzy theory, and put forward the feedforward-feedback fuzzy control method.
系统采用前馈-反馈复合算法,其中反馈采用模糊-PI算法,利用算法提高系统的响应速度,增大系统的控制带宽。
Arithmetic employs feed-forward control and feedback control to accelerate system response and improve control bandwidth in which feedback use fuzzy-PI arithmetic.
系统采用前馈-反馈复合算法,其中反馈采用模糊-PI算法,利用算法提高系统的响应速度,增大系统的控制带宽。
Arithmetic employs feed-forward control and feedback control to accelerate system response and improve control bandwidth in which feedback use fuzzy-PI arithmetic.
应用推荐