Damage Detection in an Offshore Jacket Platform Using Genetic Algorithm Based Finite Element Model Updating with Noisy Modal Data

机译：基于嘈杂模态数据的基于遗传算法的遗传算法的遗传算法损坏检测

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Offshore jacket platforms are one of the most motivating structures for damage detection due to their importance and productivity. In this study, the application of finite element model updating in damage detection of an offshore jacket platform is investigated. The objective function of this method is based on the measured and analytical modal data, including natural frequencies and mode shapes. However, the measured data is expected to be noisy. Also, to avoid obtaining false damage results, a penalty term is added to the objective function. To update the model, genetic algorithm is utilized as a robust global searching tool. Afterward, the efficiency of this method is evaluated on several damage cases in presence of 0, 1,2 and 3 percent noise with measured modal data. The results show that this method can detect the damage of this kind of structure satisfactorily even if modal data is not precisely obtained.

机译：离岸夹克平台是由于它们的重要性和生产力导致损坏的结构中最动力的结构之一。在这项研究中，研究了有限元模型在近海夹套平台损伤检测中的应用。该方法的目标函数基于测量和分析模态数据，包括自然频率和模式形状。但是，测量的数据预计将是嘈杂的。此外，为了避免获得错误损伤结果，罚款项被添加到目标函数中。要更新模型，遗传算法用作强大的全局搜索工具。之后，在具有测量的模态数据的情况下，在0,1,2和3％噪声存在下对该方法的效率进行评估。结果表明，即使没有精确地获得模态数据，这种方法也可以令人满意地检测这种结构的损坏。

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《International Conference on Rehabilitation and Maintenance in Civil Engineering》|2013年||共11页
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H. Malekzehtab; A. A. Golafshani;
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中图分类材料性能及试验;
关键词
damage detection; structural health monitoring; offshore jacket platform; model updating; genetic algorithm; damage penalization.;

机译：损坏检测;结构健康监测;离岸夹克平台;模型更新;遗传算法;损害损害。;

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1. Damage detection in an offshore platform using incomplete noisy FRF data by a novel Bayesian model updating method [J] . Fathi Amin, Esfandiari Akbar, Fadavie Manouchehr, Ocean Engineering . 2020,第Pta2期

机译：使用小说贝叶斯模型更新方法使用不完整的嘈杂FRF数据在海上平台中的损坏检测
2. Deep neural networks-based damage detection using vibration signals of finite element model and real intact state: An evaluation via a lab-scale offshore jacket structure [J] . Zohreh Mousavi, Sina Varahram, Mir Mohammad Ettefagh, Structural health monitoring . 2021,第1期

机译：基于深度神经网络的损伤检测使用有限元模型和实际完整状态的振动信号：通过实验室沿海夹克结构进行评估
3. Structural damage detection based on a micro-genetic algorithm using incomplete and noisy modal test data [J] . Au FTK., Cheng YS., Tham LG., Journal of Sound and Vibration . 2003,第5期

机译：基于微遗传算法的结构损伤检测，使用不完整且嘈杂的模态测试数据
4. Damage Detection in an Offshore Jacket Platform Using Genetic Algorithm Based Finite Element Model Updating with Noisy Modal Data [C] . H. Malekzehtab, A. A. Golafshani International Conference on Rehabilitation and Maintenance in Civil Engineering . 2013

机译：基于嘈杂模态数据的基于遗传算法的遗传算法的遗传算法损坏检测
5. Hybrid damage identification based on wavelet transform and finite element model updating. [D] . Lee, Soon Gie. 2012

机译：基于小波变换和有限元模型更新的混合损伤识别。
6. Structural damage detection using finite element model updating with evolutionary algorithms: a survey [O] . Nizar Faisal Alkayem, Maosen Cao, Yufeng Zhang, -1

机译：使用有限元模型和进化算法更新进行结构损伤检测：一项调查
7. A Kriging Model Based Finite Element Model Updating Method for Damage Detection [O] . Yang, X, Guo, X, Ouyang, H, 2017

机译：基于Kriging模型的损伤检测有限元模型更新方法

Damage Detection in an Offshore Jacket Platform Using Genetic Algorithm Based Finite Element Model Updating with Noisy Modal Data

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