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Journal of applied research and technology
versión On-line ISSN 2448-6736versión impresa ISSN 1665-6423
Resumen
HAKIM, S. J. S.; IRWAN, J. M.; IBRAHIM, M.H.W. y AYOP, S. S.. Structural damage identification employing hybrid intelligence using artificial neural networks and vibration-based methods. J. appl. res. technol [online]. 2022, vol.20, n.2, pp.221-236. Epub 27-Ene-2023. ISSN 2448-6736. https://doi.org/10.22201/icat.24486736e.2022.20.2.1233.
The basic premise of vibration-based structural damage detection is that when there are alterations in the physical characteristics of a structure, there will also be changes in its vibration parameters like Eigenfrequencies and mode shapes. Artificial neural network (ANN) has become one of the most powerful approaches, since it has the ability of pattern recognition, and nonlinear modeling. In addition, it employs computational intelligence techniques to tackle damage detection as a complex problem. In this present paper, an artificial intelligence model using ANN was developed for fault diagnosis in beam-like structures using vibration data. In this research, I-beam like structures with triple-point damages were considered to obtain the modal parameters of the structures using both experimental tests and finite element analysis. For damage identification, five different ANNs representing mode 1 to mode 5 were constructed, and subsequently, an approach called ensemble neural network was presented to integrate the results into a singular network. It was ascertained that the ensemble neural network was able to identify damage better than the individual artificial neural networks.
Palabras llave : Damage identification; Artificial neural networks; Experimental modal analysis; Finite element.