Damage detection of building structure based on vibration data and hysteretic model

J. Morales‐Valdez, M. Lopez, Wen Yu
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Abstract

This paper presents a novel approach for damage detection in building structures by using the dissipated energy. In this sense, the hysteretic Bouc-Wen model is introduced as a useful tool for describing the degrading energy, which is directly related to the stiffness loss. Since, parameters and states of this model are unknown, we employ a nonlinear system identification algorithm based on Convolutional Neural Network (CNN) to avoid estimate simultaneously the states and parameters of the model. The used CNN have the sparse connectivity, which ensures that the strong response can be detected by convolution filters. In addition, the shared weights of the CNN reduce the the training complexity and the number of its parameters because the same weights are applied to all inputs. Therefore, the CNN can detect features no matter where they are on the vibration data, also reducing the training complexity. The use of this tool avoids using an adaptive observer, which unlike CNN, the algorithm’s complexity increases with the number of unknown parameters and states. Moreover, the adaptive observer can not guarantee convergence in presence of measurement noise. Experimental results confirmed that the proposed method is promising for real applications.
基于振动数据和滞回模型的建筑结构损伤检测
提出了一种利用耗散能进行建筑结构损伤检测的新方法。从这个意义上讲,引入了滞回Bouc-Wen模型作为描述退化能量的有用工具,退化能量与刚度损失直接相关。由于该模型的参数和状态是未知的,我们采用了一种基于卷积神经网络(CNN)的非线性系统辨识算法来避免同时估计模型的状态和参数。所使用的CNN具有稀疏连通性,保证了卷积滤波器可以检测到强响应。此外,CNN的共享权值降低了训练的复杂度和参数的数量,因为所有的输入都使用相同的权值。因此,CNN可以检测振动数据上的任何位置的特征,也降低了训练的复杂度。该工具的使用避免了使用自适应观测器,与CNN不同的是,算法的复杂性随着未知参数和状态的增加而增加。此外,自适应观测器在存在测量噪声的情况下不能保证收敛性。实验结果表明,该方法具有较好的应用前景。
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