实验流体力学
實驗流體力學
실험류체역학
JOURNAL OF EXPERIMENTS IN FLUID MECHANICS
2009年
4期
82-86
,共5页
风洞%PSD神经网络%多线程%自适应控制%风速
風洞%PSD神經網絡%多線程%自適應控製%風速
풍동%PSD신경망락%다선정%자괄응공제%풍속
wind tunnel%PSD neural networks%multithreading%adaptive control%wind velocity
介绍西北工业大学NF-3大型低速直流式翼型风洞改进后的稳风速控制系统的结构、控制原理和性能特点.针对低速直流风洞风速控制系统建模困难,易受外界干扰影响,且自身参数时变不确定,控制难度大的特点,新系统采用了多线程、数字式数据采集方式,带死区控制的PSD神经网络自适应控制算法.通过在NF-3风洞三元试验段和二元试验段的实际应用,与正在使用的模糊控制系统相比较,新系统的适应性和鲁棒性更强,调试时间大为缩短,风速控制精度在风速大于10m/s时从国军标的合格指标0.3%提高到先进指标0.1%,稳定时间减少了10%左右,人机交互也更加友好.
介紹西北工業大學NF-3大型低速直流式翼型風洞改進後的穩風速控製繫統的結構、控製原理和性能特點.針對低速直流風洞風速控製繫統建模睏難,易受外界榦擾影響,且自身參數時變不確定,控製難度大的特點,新繫統採用瞭多線程、數字式數據採集方式,帶死區控製的PSD神經網絡自適應控製算法.通過在NF-3風洞三元試驗段和二元試驗段的實際應用,與正在使用的模糊控製繫統相比較,新繫統的適應性和魯棒性更彊,調試時間大為縮短,風速控製精度在風速大于10m/s時從國軍標的閤格指標0.3%提高到先進指標0.1%,穩定時間減少瞭10%左右,人機交互也更加友好.
개소서북공업대학NF-3대형저속직류식익형풍동개진후적은풍속공제계통적결구、공제원리화성능특점.침대저속직류풍동풍속공제계통건모곤난,역수외계간우영향,차자신삼수시변불학정,공제난도대적특점,신계통채용료다선정、수자식수거채집방식,대사구공제적PSD신경망락자괄응공제산법.통과재NF-3풍동삼원시험단화이원시험단적실제응용,여정재사용적모호공제계통상비교,신계통적괄응성화로봉성경강,조시시간대위축단,풍속공제정도재풍속대우10m/s시종국군표적합격지표0.3%제고도선진지표0.1%,은정시간감소료10%좌우,인궤교호야경가우호.
This paper describes the structure and the characters of wind velocity control system for NF-3 low speed wind tunnel which is located at Northwestern Polytechnical University.Due to the difficulties of establishing precise mathematical model,the complicated nonlinear characteristics of the system and the change of parameters of the wind tunnel itself,the velocity system is not easy to control in the traditional control theory.In this new system we applied the multithreading digital data acquiring method,PSD neural networks with dead line control algorithm to solve these problems.Compared with the former fuzzy control systems,this system is not only easier to operate,less time to stable,but also have higher control performance from 0.3% to 0.1% when the velocity is greater than 10m/s.
