Implementation of Surrogate Models for the Analysis of Slope Problems

Amichai Mitelman, Beverly Yang, Davide Elmo

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

Numerical modeling is increasingly used to analyze practical rock engineering problems. The geological strength index (GSI) is a critical input for many rock engineering problems. However, no available method allows the quantification of GSI input parameters, and engineers must consider a range of values. As projects progress, these ranges can be narrowed down. Machine learning (ML) algorithms have been coupled with numerical modeling to create surrogate models. The concept of surrogate models aligns well with the deductive nature of data availability in rock engineering projects. In this paper, we demonstrated the use of surrogate models to analyze two common rock slope stability problems: (1) determining the maximum stable depth of a vertical excavation and (2) determining the allowable angle of a slope with a fixed height. Compared with support vector machines and K-nearest algorithms, the random forest model performs best on a data set of 800 numerical models for the problems discussed in the paper. For all these models, regression-type models outperform classification models. Once the surrogate model is confirmed to preform accurately, instantaneous predictions of maximum excavation depth and slope angle can be achieved according to any range of input parameters. This capability is used to investigate the impact of narrowing GSI range estimation.

Original languageEnglish
Article number99
JournalGeosciences (Switzerland)
Volume13
Issue number4
DOIs
StatePublished - Apr 2023

Keywords

  • GSI
  • machine learning
  • rock engineering
  • slope stability
  • surrogate models
  • tunnels

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