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首页> 外文会议>International Conference on Power Engineering Computing and Control >Fractional order IMC based PID controller design using Novel Bat optimization algorithm for TITO Process
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Fractional order IMC based PID controller design using Novel Bat optimization algorithm for TITO Process

机译:基于分数的PID控制器设计利用TITO过程的新蝙蝠优化算法

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摘要

An independent design of adaptive multiloop fractional order internal model control based PID (FOIMC-PID) controller for a two input two output process (TITO) is presented. The multivariable system is decomposed by ideal decoupler to develop effective open loop transfer function (EOTF) and then it is approximated into first order plus dead time (FOPDT) model. The multiloop FOIMC-PID controller is designed for TITO model and controller parameters are optimally tuned using Novel Bat Optimization Algorithm (NBOA). The simulation results are demonstrated to show the effectiveness of proposed controller and also some tuning procedure is suggested to get better FOIMC-PID controller performance.
机译:提出了一种独立设计,用于两个输入两个输出过程(TITO)的基于自适应多环分数内模型控制的PID(FOIMC-PID)控制器。多变量系统通过理想的去耦器分解,以开发有效的开环传递函数(EOTF),然后近似为第一阶加上死区时间(FOPDT)模型。 MultiLoop FoIMC-PID控制器设计用于标准模型,并使用新颖的BAT优化算法(NBOA)进行最佳调整控制器参数。仿真结果经证据表明提出了所提出的控制器的有效性,并且还建议进行一些调整过程来获得更好的FOIMC-PID控制器性能。

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