Genetic algorithm-based PID parameters optimization for air heater temperature control

机译：基于遗传算法的PID参数优化的空气加热器温度控制

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The main problem on PID controller design is tuning its parameters in order to generate optimal systems performance. This paper applies Genetics Algorithms (GA) for tuning PID controller of an air heater. PID controller is used to control the output temperature of the air heater. A process model of the air heater is defined based on its open loop step response. Using this model, an offline PID parameters optimization based on GA is done. The chromosome in GA represents PID parameters namely proportional gain (Kp), integral gain (Ki), and derivative gain (Kd). The objective functions are settling time and overshoot. The experimental results show that the step response of this GA-based PID controller has superior performance than its using Ziegler Nichols tuning.

机译：PID控制器设计的主要问题是调整其参数以产生最佳的系统性能。本文应用遗传算法（GA）来调节空气加热器的PID控制器。 PID控制器用于控制空气加热器的输出温度。根据空气加热器的开环阶跃响应来定义其过程模型。使用该模型，完成了基于遗传算法的离线PID参数优化。 GA中的染色体代表PID参数，即比例增益（Kp），积分增益（Ki）和微分增益（Kd）。目标功能是建立时间和超调。实验结果表明，这种基于GA的PID控制器的阶跃响应性能优于使用Ziegler Nichols整定的PID控制器。

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来源
《2013 International Conference on Robotics, Biomimetics, Intelligent Computational Systems》|2013年|30-34|共5页
会议地点 Yogyakarta(ID)
作者
Wati Dwi Ana Ratna; Hidayat Rakhmat;
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作者单位

Department of Electrical Engineering, University of Islam Indonesia, Yogyakarta, Indonesia;

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原文格式 PDF
正文语种 eng
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关键词
PID; air heater; genetic algorithms; temperature control; tuning;

机译：PID;空气加热器;遗传算法;温度控制;调整;;

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Genetic algorithm-based PID parameters optimization for air heater temperature control

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