Damage Diagnosis of Steel Truss Bridges under Varying Environmental And Loading Conditions

Kundan Kumar, P. Biswas, N. Dhang
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引用次数: 3

Abstract

In this paper, we propose a damage detection and localization algorithm for steel truss bridges using a data-driven approach under varying environmental and loading conditions. A typical steel truss bridge is simulated in ANSYS for data generation. Damage is introduced by reducing the stiffness of one or more members of the truss bridge. The simulated acceleration time-history signals are used for the purpose of damage diagnosis purpose. Vibration data collected from healthy bridges are processed through principal component analysis (PCA) to find the reduced size weighted feature vectors in model space. Unknown test vibration data (healthy or damaged) finds the closest match of its reduced size model from the training database containing only healthy vibration data. The residual error between the spread of closest healthy vibration data and unknown test vibration data is processed to determine damage location and severity of the damage to the structure. A comparative study between a proper orthogonal decomposition (POD) based damage detection algorithm and proposed algorithm is presented. The results show that the proposed algorithm is efficient to identify the damage location and assess the severity of damage, called as the Damage Index (DI), under varying environmental and moving load conditions.
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不同环境荷载条件下钢桁架桥梁的损伤诊断
本文提出了一种基于数据驱动方法的钢桁架桥梁在不同环境和荷载条件下的损伤检测和定位算法。在ansys软件中对一座典型钢桁架桥进行了仿真,得到了相应的数据。破坏是通过降低桁架桥的一个或多个成员的刚度来引入的。仿真得到的加速度时程信号可用于损伤诊断。通过主成分分析(PCA)对健康桥梁的振动数据进行处理,在模型空间中找到约简的加权特征向量。未知的测试振动数据(健康或损坏)从仅包含健康振动数据的训练数据库中找到与其缩减尺寸模型最接近的匹配。通过对最接近健康振动数据与未知测试振动数据之间的残差进行处理,确定结构的损伤位置和损伤程度。对基于适当正交分解(POD)的损伤检测算法与该算法进行了对比研究。结果表明,在不同环境和移动荷载条件下,该算法能够有效地识别损伤位置并评估损伤严重程度,即损伤指数(DI)。
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