Structural Monitoring and Maintenance Volume 5, Number 3, September 2018 , pages 379-390 DOI: https://doi.org/10.12989/smm.2018.5.3.379 |
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Prediction of unmeasured mode shapes and structural damage detection using least squares support vector machine |
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Seyed Sina Kourehli
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Abstract | ||
In this paper, a novel and effective damage diagnosis algorithm is proposed to detect and estimate damage using two stages least squares support vector machine (LS-SVM) and limited number of attached sensors on structures. In the first stage, LS-SVM1 is used to predict the unmeasured mode shapes data based on limited measured modal data and in the second stage, LS-SVM2 is used to predicting the damage location and severity using the complete modal data from the first-stage LS-SVM1. The presented methods are applied to a three story irregular frame and cantilever plate. To investigate the noise effects and modeling errors, two uncertainty levels have been considered. Moreover, the performance of the proposed methods has been verified through using experimental modal data of a mass-stiffness system. The obtained damage identification results show the suitable performance of the proposed damage identification method for structures in spite of different uncertainty levels. | ||
Key Words | ||
unmeasured mode shapes; two stages method; LS-SVM; sparse sensors; uncertainty levels | ||
Address | ||
Seyed Sina Kourehli: Department of Civil Engineering, Ahar Branch, Islamic Azad University, Ahar, Iran | ||