CONTROLLING WATER LEVEL BY USING MODIFIED MODEL FREE ADAPTIVE CONTROLLER

Journal of Engineering and Sustainable Development Pub Date : 2023-05-01 DOI:10.31272/jeasd.27.3.7

Y. A. Mohammed, Ekhlas H. Karam, Nahida N. Kadhim

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Abstract

This paper investigates a simple mathematical model for a water level system, which consists of a DC motor (water pump), and a Speed to Height transformation block, that relates the speed of the motor, to the height of the water level. The input signal is the applied voltage to the armature of the DC motor, while the output signal is the rotational speed of the shaft. A simple modified model-free adaptive controller is suggested, to control the level of water, by adjusting the rate of the incoming water flow to the container, by changing the speed of the water pump, that fills the container. The suggested controller consists of a conventional model free adaptive controller, combined with the proportional integral derivative controller. The parameters of the controller are tuned using two methods. The overall controlled water level system is simulated through MATLAB R2015a software. The results show the efficiency of the suggested controller, when compared to the tuned PID and the MFAC, due to its least fluctuation peak, fast response with a small settling time, and zero steady-state error.

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用改进的无模型自适应控制器控制水位

本文研究了水位系统的一个简单数学模型，该模型由直流电机（水泵）和速度-高度转换块组成，该转换块将电机的速度与水位高度联系起来。输入信号是施加在直流电机电枢上的电压，而输出信号是轴的转速。提出了一种简单的无模型自适应控制器，通过调节流入容器的水流速度，通过改变装满容器的水泵的速度来控制水位。所提出的控制器由传统的无模型自适应控制器和比例-积分-微分控制器组成。控制器的参数使用两种方法进行调整。通过MATLAB R2015a软件对整个控制水位系统进行了仿真。结果表明，与调谐PID和MFAC相比，所提出的控制器具有效率，因为它的波动峰值最小，响应快，稳定时间短，稳态误差为零。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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