A Takagi-Sugeno fuzzy model for predicting the clean rock joints shear strength

Matos, Yago Machado Pereira de; Neto, Silvrano Adonias Dantas; Barreto, Guilherme A.

doi:10.1590/0370-44672018720083

REM, Int. Eng. J.

2019

DOI: 10.1590/0370-44672018720083

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A Takagi-Sugeno fuzzy model for predicting the clean rock joints shear strength

Yago Machado Pereira de Matos

Silvrano Adonias Dantas Neto

Guilherme A. Barreto

Abstract: It is well known that learning about the mechanical behavior of a fractured rock mass depends on the shear behavior of its discontinuities. Several studies have shown that the shear behavior of unfilled rock discontinuities depends on their boundary conditions, roughness characteristics and the properties of the joints walls. Currently, there are several analytical models that can be used to predict the shear behavior of clean rock joints. However, they are all purely deterministic in nature because their inpu… Show more

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Cited by 6 publications

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“…The developed neural model was able to express the influence of the input variables in the shearing behavior of joints and may be an alternative to the existing analytical models which sometimes require certain parameters obtained from large-scale laboratory tests which are not always available. Matos et al (2019aMatos et al ( , 2019b Developed Takagi-Sugeno fuzzy systems for predicting shear strength of clean rock joints incorporating uncertainties in the variables that govern their shear behavior.…”

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Risk assessment in a rock slope stability analysis using a Mamdani fuzzy controller

Matos,

Dantas Neto,

Barreto

2023

REM, Int. Eng. J.

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The shearing behavior of discontinuities is one of the factors with major influence on rock slope stability analysis, which is predictable when adopting different analytical models. However, these methodologies, generally of a purely deterministic nature, do not allow an assessment of the influence of the variability of the input parameters of the models on the shear behavior of unfilled rock discontinuities and, consequently, on the risk involved in the rock slope stability analyses. The purpose of this article is to present a methodology for rock slope risk assessment based on the development of a model to predict the shear behavior of unfilled rock discontinuity considering the variability of its input parameters, using a Mamdani fuzzy controller. The input variables of the model are the boundary normal stiffness and initial normal stress acting on the discontinuity, its roughness, the uniaxial compressive strength, the basic angle of friction of the intact rock and the shear displacement imposed on the discontinuity. The model outputs are the membership functions for the shear strength and dilation of the unfilled rock discontinuity, and from which the membership function can be defined for the factor of safety of the rock slope considering the failure mechanism governed by discontinuity. The results reveal the use and importance of fuzzy logic and fuzzy number operations in assessing the risk in rock slopes and may be used even in situations where there are major uncertainties on the existing information of the characteristics of the unfilled discontinuities.

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confidence: 99%

Risk assessment in a rock slope stability analysis using a Mamdani fuzzy controller

Matos,

Dantas Neto,

Barreto

2023

REM, Int. Eng. J.

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show abstract

Prediction of Uniaxial Strength of Rocks Using Relevance Vector Machine Improved with Dual Kernels and Metaheuristic Algorithms

Khatti,

Grover

2024

Rock Mech Rock Eng

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Stacking Ensemble Machine Learning-Based Shear Strength Model for Rock Discontinuity

Fathipour‐Azar

2022

Geotech Geol Eng

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A Takagi-Sugeno fuzzy model for predicting the clean rock joints shear strength

Cited by 6 publications

References 16 publications

Risk assessment in a rock slope stability analysis using a Mamdani fuzzy controller

Risk assessment in a rock slope stability analysis using a Mamdani fuzzy controller

Prediction of Uniaxial Strength of Rocks Using Relevance Vector Machine Improved with Dual Kernels and Metaheuristic Algorithms

Stacking Ensemble Machine Learning-Based Shear Strength Model for Rock Discontinuity

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