Abstract
The majority of natural ground vibrations are caused by the release of strain energy accumulated in the rock strata. The strain reacts to the formation of crack patterns and rock stratum failure. Rock strain prediction is one of the significant works for the assessment of the failure of rock material. The purpose of this paper is to investigate the development of a new strain prediction approach in rock samples utilizing deep neural network (DNN) and hybrid ANFIS (adaptive neuro-fuzzy inference system) models. Four optimization algorithms, namely particle swarm optimization (PSO), Fireflies algorithm (FF), genetic algorithm (GA), and grey wolf optimizer (GWO), were used to optimize the learning parameters of ANFIS and ANFIS-PSO, ANFIS-FF, ANFIS-GA, and ANFIS-GWO were constructed. For this purpose, the necessary datasets were obtained from an experimental setup of an unconfined compression test of rocks in lateral and longitudinal directions. Various statistical parameters were used to investigate the accuracy of the proposed prediction models. In addition, rank analysis was performed to select the most robust model for accurate rock sample prediction. Based on the experimental results, the constructed DNN is very potential to be a new alternative to assist engineers to estimate the rock strain in the design phase of many engineering projects.
Highlights
The earth’s crust is constantly pushed, pulled, and twisted by the tectonic movement which leads to deformations
Using a uniaxial compression test, Yang et al [6] investigated the effect of fracture combination on the strength and deformation failure behavior of brittle marble samples
The aim of this study is to develop and use deep learning and meta-heuristic-based hybrid adaptive neuro-fuzzy inference system (ANFIS) soft computing techniques to estimate the strain in a rock sample
Summary
The earth’s crust is constantly pushed, pulled, and twisted by the tectonic movement which leads to deformations. Using a uniaxial compression test, Yang et al [6] investigated the effect of fracture combination on the strength and deformation failure behavior of brittle marble samples. The aim of this study is to develop and use deep learning and meta-heuristic-based hybrid ANFIS soft computing techniques to estimate the strain in a rock sample. The angle of the stain gauge, the height of the strain gauge, and the stress in the rock sample were used. The current study estimates and compares the results obtained from deep neural network (DNN), hybrid ANFIS with FF, GA, GWO, and Infrastructures 2021, 6, x FOR PEER REVIEW. The optimizer techniques have work (DNN), hybrid ANFIS with FF, GA, GWO, and PSO for predicting lateral and been used to improve the ANFIS performance in this case
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