振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2014年
18期
43-49
,共7页
地震模拟%弹塑性%阻抗分段辨识%驱动信号合成%快速迭代控制
地震模擬%彈塑性%阻抗分段辨識%驅動信號閤成%快速迭代控製
지진모의%탄소성%조항분단변식%구동신호합성%쾌속질대공제
earthquake simulation%elastoplastic%impedance divided identification%drive signal synthesizing%rapid iterative control
目前较先进的地震模拟试验多采用加速度迭代控制方法,针对该方法存在的更新速率低导致振动台在试件弹塑性阶段控制精度差的缺陷,提出一种地震模拟快速迭代控制方法。该方法在频域分段的基础上利用位移和加速度控制信号分别对低频段和中频段系统阻抗进行辨识,并设置不同的系统辨识参数,使得低频段系统阻抗具有较高的频率分辨率,而中频段系统阻抗具有较高的更新速率,并设计合成方法生成系统驱动信号。在浙江大学构建的振动台上进行试验表明:该控制方法可以将中频段系统阻抗的辨识周期缩短至5s左右,在试件传递特性突然发生变化后,能在两帧试验时间内对系统传递特性进行较高精度的辨识,加速度波形复现时域相关系数能达到90%以上。
目前較先進的地震模擬試驗多採用加速度迭代控製方法,針對該方法存在的更新速率低導緻振動檯在試件彈塑性階段控製精度差的缺陷,提齣一種地震模擬快速迭代控製方法。該方法在頻域分段的基礎上利用位移和加速度控製信號分彆對低頻段和中頻段繫統阻抗進行辨識,併設置不同的繫統辨識參數,使得低頻段繫統阻抗具有較高的頻率分辨率,而中頻段繫統阻抗具有較高的更新速率,併設計閤成方法生成繫統驅動信號。在浙江大學構建的振動檯上進行試驗錶明:該控製方法可以將中頻段繫統阻抗的辨識週期縮短至5s左右,在試件傳遞特性突然髮生變化後,能在兩幀試驗時間內對繫統傳遞特性進行較高精度的辨識,加速度波形複現時域相關繫數能達到90%以上。
목전교선진적지진모의시험다채용가속도질대공제방법,침대해방법존재적경신속솔저도치진동태재시건탄소성계단공제정도차적결함,제출일충지진모의쾌속질대공제방법。해방법재빈역분단적기출상이용위이화가속도공제신호분별대저빈단화중빈단계통조항진행변식,병설치불동적계통변식삼수,사득저빈단계통조항구유교고적빈솔분변솔,이중빈단계통조항구유교고적경신속솔,병설계합성방법생성계통구동신호。재절강대학구건적진동태상진행시험표명:해공제방법가이장중빈단계통조항적변식주기축단지5s좌우,재시건전체특성돌연발생변화후,능재량정시험시간내대계통전체특성진행교고정도적변식,가속도파형복현시역상관계수능체도90%이상。
Acceleration iterative control is generally used in advanced earthquake simulation tests currently.To overcome the poor control precision of an elastoplastic specimen due to low update rate of this control,an earthquake simulation rapid iterative control was proposed.This control method was used to identify the system impedance within lower-frequency band and middle-frequency band,respectively with displacement and acceleration control signals based on different frequency ranges.The system identification parameters were set so that the system impedance within lower frequency band had a higher frequency resolution,while the system impedance within middle-frequency band had a higher update rate.The system drive signal was generated using synthetic methods.The experimental results obtained with Zhejiang University shaking tables indicated that this control can shorten the period of the system impedance identification to 5 seconds;using this control can get a higher identification precision after two earthquake simulation tests;even though the specimen transfer characteristics have sudden changes,the test acceleration correlation coefficient can reach 90%.
