河北工业大学学报
河北工業大學學報
하북공업대학학보
JOURNAL OF HEBEI UNIVERSITY OF TECHNOLOGY
2010年
1期
47-50,55
,共5页
周颖%张磊%裘之亮%邢庆国
週穎%張磊%裘之亮%邢慶國
주영%장뢰%구지량%형경국
自适应遗传算法%非线性PID控制器%大滞后系统%参数优化%温度控制
自適應遺傳算法%非線性PID控製器%大滯後繫統%參數優化%溫度控製
자괄응유전산법%비선성PID공제기%대체후계통%삼수우화%온도공제
adaptive genetic algorithm%nonlinear PID controller%large time delay system%parameter optimization%temperature control
生物发酵利用夹套进行加热和冷却,其温度控制精度非常重要.但这种以温度为被控对象往往存在严重的积分纯滞后现象,采用常规的控制算法难以达到所要求的控制品质.基于PID控制器各增益参数与偏差信号之间的非线性关系,采用出一种非线性PID控制器.同时,针对经典遗传算法收敛速度慢,易陷入早熟,局部最优等缺点,提出一种自适应遗传算法,自适应遗传算法通过建立适应值差值函数来适时调整交叉、变异概率.这使算法具有自适应性,将其应用于非线性PID控制器参数寻优.仿真结果表明,基于此遗传算法寻优的非线性PID控制器可以有效的抑制大滞后系统的超调缺陷,具有较好的控制精度.
生物髮酵利用夾套進行加熱和冷卻,其溫度控製精度非常重要.但這種以溫度為被控對象往往存在嚴重的積分純滯後現象,採用常規的控製算法難以達到所要求的控製品質.基于PID控製器各增益參數與偏差信號之間的非線性關繫,採用齣一種非線性PID控製器.同時,針對經典遺傳算法收斂速度慢,易陷入早熟,跼部最優等缺點,提齣一種自適應遺傳算法,自適應遺傳算法通過建立適應值差值函數來適時調整交扠、變異概率.這使算法具有自適應性,將其應用于非線性PID控製器參數尋優.倣真結果錶明,基于此遺傳算法尋優的非線性PID控製器可以有效的抑製大滯後繫統的超調缺陷,具有較好的控製精度.
생물발효이용협투진행가열화냉각,기온도공제정도비상중요.단저충이온도위피공대상왕왕존재엄중적적분순체후현상,채용상규적공제산법난이체도소요구적공제품질.기우PID공제기각증익삼수여편차신호지간적비선성관계,채용출일충비선성PID공제기.동시,침대경전유전산법수렴속도만,역함입조숙,국부최우등결점,제출일충자괄응유전산법,자괄응유전산법통과건립괄응치차치함수래괄시조정교차、변이개솔.저사산법구유자괄응성,장기응용우비선성PID공제기삼수심우.방진결과표명,기우차유전산법심우적비선성PID공제기가이유효적억제대체후계통적초조결함,구유교호적공제정도.
The precision of temperature control is a very important factor to fermentation process.However,because the serious integral and time delay exists in controlled object,the conventional control algorithm could hardly obtain satisfactory quality.Thus,a nonlinear PID controller is designed based on the nonlinear relationship between PID control parameters and error signals.Furthermore,an adaptive genetic algorithm is proposed in this paper in order to overcome the disadvantages in classical genetic algorithm,such as slow early convergence,local optimum,etc.The new adaptive algorithm adjusts the probabilities of crossover and mutation by construct function of the changes of fitness value.Simulation results show that the nonlinear PID controller with the genetic algorithm for tuning the parameter is very effective.It has good dynamic,static response and strong robustness.
