An Exploration of X-Vectors for Damage Detection and Identification

Volume 1: Acoustics, Vibration, and Phononics Pub Date : 2021-11-01 DOI:10.1115/imece2021-73324

Kyle L. Hom, H. Beigi, R. Betti

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Abstract

Damage identification for structural health monitoring (SHM) is explored through applying the x-vector speaker recognition technique in the structural domain. Using the progressive damage tests from the Z24 Bridge Benchmark dataset, a time-delay neural network (TDNN) is trained as an acoustic model to classify the provided global damage scenarios. The outputs of a pre-final layer, called x-vectors, are used as damage-sensitive features for identification of damage presence and mechanisms. Since the developed TDNN has learned the underpinning dynamics of the damage mechanisms in the Z24 tests, we apply it as a basis for damage identification problems tangential to the Z24 progressive damage classification task. Transfer learning and domain transfer are investigated via application of the developed TDNN towards local damage identification of the Z24 Bridge, and global and local damage identification for the unseen LANL SHM Alamosa Canyon Bridge, UC-Irvine Bridge Column, and Bookshelf studies. Supervised and unsupervised classification techniques are explored to assess this method, and strong results in damage detection are obtained for these SHM problems.

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基于x向量的损伤检测与识别研究

将x向量说话人识别技术应用于结构领域，对结构健康监测中的损伤识别进行了探索。使用来自Z24 Bridge Benchmark数据集的渐进式损伤测试，将时滞神经网络(TDNN)训练为声学模型，对提供的全局损伤场景进行分类。预终层的输出称为x向量，用作识别损伤存在和机制的损伤敏感特征。由于开发的TDNN已经学习了Z24试验中损伤机制的基础动力学，我们将其作为与Z24渐进损伤分类任务无关的损伤识别问题的基础。通过将开发的TDNN应用于Z24桥的局部损伤识别，以及未见的LANL SHM Alamosa Canyon桥、UC-Irvine桥柱和Bookshelf的全局和局部损伤识别，研究了迁移学习和领域转移。研究了有监督分类和无监督分类两种方法，并在损伤检测方面取得了较好的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 1: Acoustics, Vibration, and Phononics

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