Applied Sciences (Dec 2023)

Machine Learning Algorithms for the Prediction of the Seismic Response of Rigid Rocking Blocks

  • Ioannis Karampinis,
  • Kosmas E. Bantilas,
  • Ioannis E. Kavvadias,
  • Lazaros Iliadis,
  • Anaxagoras Elenas

DOI
https://doi.org/10.3390/app14010341
Journal volume & issue
Vol. 14, no. 1
p. 341

Abstract

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A variety of structural members and non-structural components, including bridge piers, museum artifacts, furniture, or electrical and mechanical equipment, can uplift and rock under ground motion excitations. Given the inherently non-linear nature of rocking behavior, employing machine learning algorithms to predict rocking response presents a notable challenge. In the present study, the performance of supervised ML algorithms in predicting the maximum seismic response of free-standing rigid blocks subjected to ground motion excitations is evaluated. As such, both regression and classification algorithms were developed and tested, aiming to model the finite rocking response and rocking overturn. From this point of view, it is essential to estimate the maximum rocking rotation and to efficiently classify its magnitude by successfully assigning respective labels. To this end, a dataset containing the response data of 1100 rigid blocks subjected to 15,000 ground motion excitations, was employed. The results showed high accuracy in both the classification (95% accuracy) and regression (coefficient of determination R2=0.89) tasks.

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