湘南学院学报
湘南學院學報
상남학원학보
JOURNAL OF XIANGNAN UNIVERSITY
2013年
2期
30-33
,共4页
配浆浓度%模糊控制%单神经元PID控制
配漿濃度%模糊控製%單神經元PID控製
배장농도%모호공제%단신경원PID공제
plasma consistency%fuzzy control%single neuron PID control
配浆浓度控制过程具有大干扰、强滞后的特点,针对这一对象,本文提出一种基于模糊控制的单神经元PID配浆浓度控制算法.该算法采用双闭环控制,外环为弥补系统滞后利用模糊控制器,进行智能控;内环根据浓度变化的预测值,采用单神经元PID模块对稀释水流量进行调节,抑制系统干扰.实际应用效果证明该算法的有效性.
配漿濃度控製過程具有大榦擾、彊滯後的特點,針對這一對象,本文提齣一種基于模糊控製的單神經元PID配漿濃度控製算法.該算法採用雙閉環控製,外環為瀰補繫統滯後利用模糊控製器,進行智能控;內環根據濃度變化的預測值,採用單神經元PID模塊對稀釋水流量進行調節,抑製繫統榦擾.實際應用效果證明該算法的有效性.
배장농도공제과정구유대간우、강체후적특점,침대저일대상,본문제출일충기우모호공제적단신경원PID배장농도공제산법.해산법채용쌍폐배공제,외배위미보계통체후이용모호공제기,진행지능공;내배근거농도변화적예측치,채용단신경원PID모괴대희석수류량진행조절,억제계통간우.실제응용효과증명해산법적유효성.
@@@@The process of plasma consistency control is often greatly disturbed and sluggish .In view of this phe-nomenon ,a single neuron PID control algorithm based on fuzzy control is brought forward .This algorithm is con-trolled by two closed rings and is proved to be effective by practical application .The outer ring uses the intelligent control of fuzzy control to make up for the lateness of the system .The inner ring ,according to the changes of pre-dicted value ,uses single neuron PID module to adjust the dilution water and inhibit the interference of the system .
