IMC-PID control has the advantages of IMC, and has a simple construction. It can be used in plants in existence and need no hardware modify.
内模- PID控制既具有内模控制的优势,同时保持了PID控制器结构简单的特点,可直接应用于现有装置而无需任何硬件调整。
This paper using a new method of approaching the all-pole approximation, designing based on IMC-PID control just need adjusting one parameter.
该文采用一种新的全极点逼近法,设计基于内模原理的PID反馈控制,只需调整一个参数。
The design procedure of the two-degree-of-freedom IMC-PID controller for doubly integrating plants with delay is proposed based on the internal model control theory.
针对一类具有时滞的双重积分对象,根据内模控制理论提出一种二自由度IMC-PID控制器设计方法。
Furthermore, by applying the present method into the network congestion control, this paper constructed a new Active Queue Management (AQM) algorithm, IMC-PID algorithm.
将IMC - PID应用于网络拥塞控制中,得到了一种新的主动队列管理(aqm)算法——IMC - PID算法。
Detailed IMC-PID controllers which have filter time constant as their only tuning parameter for processes mentioned above is acquired. Tuning results of such controller are put forward as well.
详细导出了适用于上述过程的仅需整定一个参数的IMC—PID控制器,并给出了IMC—PID控制器的滤波器参数整定结果。
The PID controller is composed of the equivalent interference signal, the controlled objects, the object model, IMC, feedback filter and reference input filter.
该控制器由等效扰动信号、被控对象、对象模型、内模控制器、反馈滤波器及参考输入滤波器组成。
The relay feedback self-tuning PID based on internal model control (IMC) was adopted for self-tuning PID controller for long time-delay process.
大时滞过程的自整定pid控制器,采用基于内模控制策略的继电型PID自整定。
IMC (Interrnd Model control) advanced control's principle and performance are introduced, and the IMC - PID advanced control is designed according to the actual PID format with the IMC principle.
分析了内模控制(IMC)先进控制算法的原理和性能,运用IMC原理设计具体PID形式下的IMC—PID先进控制。
If it can be combined the advantage of IMC and PID, then it is not only satisfied complexity process need, but will be used splendidly in industry.
如果能把内模控制和PID控制结合起来,那么既可以满足复杂过程的控制要求,有能很好的应用于工业现场。
This paper mainly discussed IMC strategies and PID transform.
本文主要研究内模控制方法及PID转换。
Simulation result of given plant showed that the proposed MMA-IMC design method is superior to its conventional counterpart and PID in performance of stability and robustness and response speed.
仿真表明, 多模型自适应内模控制较之单内模 控制和常规PID 控制,在稳定性、鲁棒性和响应 速度等方面,均具有明显的优越性。
Using NLJ search procedure to optimize the control loops of FCCU plant by selecting PID parameters based on IMC control principle and step response data.
应用NL J随机搜索算法,对催化裂化控制回路进行基于阶跃响应的PID参数优化和IMC - PID参数优化。
Using NLJ search procedure to optimize the control loops of FCCU plant by selecting PID parameters based on IMC control principle and step response data.
应用NL J随机搜索算法,对催化裂化控制回路进行基于阶跃响应的PID参数优化和IMC - PID参数优化。
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