One of the main tasks in structural health monitoring process is to create reliable algorithms that are capable of translating the measured response into meaningful information reflecting the actual condition of the monitored structure. The authors have recently introduced a novel unsupervised vibration-based damage detection algorithm that utilizes selforganizing maps to quantify structural damage and assess the overall condition of structures. Previously, this algorithm had been tested using the experimental data of Phase II Experimental Benchmark Problem of Structural Health Monitoring, introduced by the IASC (International Association for Structural Control) and ASCE (American Society of Civil Engineers). In this paper, the ability of this algorithm to quantify structural damage is tested analytically using an experimentally validated finite element model of a laboratory structure constructed at Qatar University.
CITATION STYLE
Abdeljaber, O., Avci, O., Do, N. T., Gul, M., Celik, O., & Necati Catbas, F. (2016). Quantification of structural damage with self-organizing maps. In Conference Proceedings of the Society for Experimental Mechanics Series (Vol. 7, pp. 47–57). Springer New York LLC. https://doi.org/10.1007/978-3-319-29956-3_5
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