超高耸钢结构的模态参数识别及模型修正
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摘要
广州新电视塔(GNTVT)是一座高度为610m的超高层柔性钢结构,很有必要对其进行健康监测。应用多参考点稳定图算法(M-NExT/ERA)、数据驱动随机子空间识别法(SSI/Data)和增强频域分解法(EFDD),依据GNTVT Benchmark提供的结构振动数据识别广州新电视塔的模态参数,以掌握其动态特性;利用ANSYS建立GNTVT的有限元模型,根据识别得到的实测模态参数,结合遗传算法对GNTVT初始有限元模型进行参数修正,使有限元模型得以正确反映真实结构的动态特性,以供后续健康监测研究之用。
Structure health monitoring is very necessary for Guangzhou New TV Tower(NGTVT),which is a 610 meters high high-rise steel structure.This paper applies multiple reference DOFs stabilization diagram algorithm(M-NExT/ERA),Data-Driven Stochastic Subspace Identification(SSI/Data) and Enhanced Frequency Domain Decomposition(EFDD) to the extraction of modal parameters of GNTVT on the basis of acceleration measurements(GNTVT Benchmark).Then Finite Element Model of GNTVT is modeled using GNTVT,at last the modal parameters results are used for the model updating based on Genetic Algorithm of GNTVT EFM model.
Structure health monitoring is very necessary for Guangzhou New TV Tower(NGTVT),which is a 610 meters high high-rise steel structure.This paper applies multiple reference DOFs stabilization diagram algorithm(M-NExT/ERA),Data-Driven Stochastic Subspace Identification(SSI/Data) and Enhanced Frequency Domain Decomposition(EFDD) to the extraction of modal parameters of GNTVT on the basis of acceleration measurements(GNTVT Benchmark).Then Finite Element Model of GNTVT is modeled using GNTVT,at last the modal parameters results are used for the model updating based on Genetic Algorithm of GNTVT EFM model.
引文
[1]张瑞云,曹双寅.结构模型修正的遗传算法方法研究[J].桥梁建设,2008,1:23-26.
[2]陈伟欢,吕中荣,陈树辉,等.高耸结构建造阶段环境振动测试与模态分析[J].中山大学学报:自然科学版,2010,49(5):34-40.
[3]GNTVT benchmark[DB/OL].http://www.cse.polyu.edu.hk/benchmark/index.htm.
[4]Ye X J,Yan Q S,Wang W F,et al.Modal identification ofCanton Tower under uncertain environmental conditions[J].Smart Structures and Systems,2012;10(4/5):353-373.
[5]Faravelli L,Ubertini F,Fuggini C.Subspace Identification ofthe Guangzhou New TV Tower[C]//Proceedings of 5th WorldConference on Structural Control and Monitoring,Tokyo:2010.
[6]何少宁.广州新电视塔竖向地震作用分析[D].西安:西安建筑科技大学,2006.
[7]李春林.高耸结构风振响应分析研究[D].广州:广州大学,2007.
[8]钟颖.基于静力测试数据的桥梁结构有限元模型修正[D].成都:西南交通大学,2009.
[9]梁文广.框架结构模型修正与损伤识别研究[D].重庆:重庆大学,2009.
[10]闫桂荣,段忠东,欧进萍.遗传算法在结构有限元模型修正中的应用[J].哈尔滨工业大学学报.2007,39(2):181-186.
[2]陈伟欢,吕中荣,陈树辉,等.高耸结构建造阶段环境振动测试与模态分析[J].中山大学学报:自然科学版,2010,49(5):34-40.
[3]GNTVT benchmark[DB/OL].http://www.cse.polyu.edu.hk/benchmark/index.htm.
[4]Ye X J,Yan Q S,Wang W F,et al.Modal identification ofCanton Tower under uncertain environmental conditions[J].Smart Structures and Systems,2012;10(4/5):353-373.
[5]Faravelli L,Ubertini F,Fuggini C.Subspace Identification ofthe Guangzhou New TV Tower[C]//Proceedings of 5th WorldConference on Structural Control and Monitoring,Tokyo:2010.
[6]何少宁.广州新电视塔竖向地震作用分析[D].西安:西安建筑科技大学,2006.
[7]李春林.高耸结构风振响应分析研究[D].广州:广州大学,2007.
[8]钟颖.基于静力测试数据的桥梁结构有限元模型修正[D].成都:西南交通大学,2009.
[9]梁文广.框架结构模型修正与损伤识别研究[D].重庆:重庆大学,2009.
[10]闫桂荣,段忠东,欧进萍.遗传算法在结构有限元模型修正中的应用[J].哈尔滨工业大学学报.2007,39(2):181-186.
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