A new approach for prediction of the stability of soil and rock slopes

Purpose - Analysis of stability of slopes has been the subject of many research works in the past decades. Prediction of stability of slopes is of great importance in many civil engineering structures including earth dams, retaining walls and trenches. There are several parameters that contribute to...

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Published in	Engineering computations Vol. 27; no. 7; pp. 878 - 893
Main Authors	Ahangar-Asr, Alireza, Faramarzi, Asaad, Javadi, Akbar A.
Format	Journal Article
Language	English
Published	Bradford Emerald Group Publishing Limited 12.10.2010
Subjects	Accuracy Algorithms Computation Equilibrium Evolutionary Geological analysis Geological engineering Mathematical models Methods Neural networks Programming and algorithm theory Rock Rocks Shear strength Slope deflection method Slope stability Slopes Soil (material) Soils Stability Stability control theory Studies Soils Rocks Slope deflection method Geological analysis Programming and algorithm theory Stability (control theory)
Online Access	Get full text
ISSN	0264-4401 1758-7077
DOI	10.1108/02644401011073700

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Abstract	Purpose - Analysis of stability of slopes has been the subject of many research works in the past decades. Prediction of stability of slopes is of great importance in many civil engineering structures including earth dams, retaining walls and trenches. There are several parameters that contribute to the stability of slopes. This paper aims to present a new approach, based on evolutionary polynomial regression (EPR), for analysis of stability of soil and rock slopes.Design methodology approach - EPR is a data-driven method based on evolutionary computing, aimed to search for polynomial structures representing a system. In this technique, a combination of the genetic algorithm and the least square method is used to find feasible structures and the appropriate constants for those structures.Findings - EPR models are developed and validated using results from sets of field data on the stability status of soil and rock slopes. The developed models are used to predict the factor of safety of slopes against failure for conditions not used in the model building process. The results show that the proposed approach is very effective and robust in modelling the behaviour of slopes and provides a unified approach to analysis of slope stability problems. It is also shown that the models can predict various aspects of behaviour of slopes correctly.Originality value - In this paper a new evolutionary data mining approach is presented for the analysis of stability of soil and rock slopes. The new approach overcomes the shortcomings of the traditional and artificial neural network-based methods presented in the literature for the analysis of slopes. EPR provides a viable tool to find a structured representation of the system, which allows the user to gain additional information on how the system performs.
AbstractList	Purpose - Analysis of stability of slopes has been the subject of many research works in the past decades. Prediction of stability of slopes is of great importance in many civil engineering structures including earth dams, retaining walls and trenches. There are several parameters that contribute to the stability of slopes. This paper aims to present a new approach, based on evolutionary polynomial regression (EPR), for analysis of stability of soil and rock slopes. Design/methodology/approach - EPR is a data-driven method based on evolutionary computing, aimed to search for polynomial structures representing a system. In this technique, a combination of the genetic algorithm and the least square method is used to find feasible structures and the appropriate constants for those structures. Findings - EPR models are developed and validated using results from sets of field data on the stability status of soil and rock slopes. The developed models are used to predict the factor of safety of slopes against failure for conditions not used in the model building process. The results show that the proposed approach is very effective and robust in modelling the behaviour of slopes and provides a unified approach to analysis of slope stability problems. It is also shown that the models can predict various aspects of behaviour of slopes correctly. Originality/value - In this paper a new evolutionary data mining approach is presented for the analysis of stability of soil and rock slopes. The new approach overcomes the shortcomings of the traditional and artificial neural network-based methods presented in the literature for the analysis of slopes. EPR provides a viable tool to find a structured representation of the system, which allows the user to gain additional information on how the system performs. Purpose Analysis of stability of slopes has been the subject of many research works in the past decades. Prediction of stability of slopes is of great importance in many civil engineering structures including earth dams, retaining walls and trenches. There are several parameters that contribute to the stability of slopes. This paper aims to present a new approach, based on evolutionary polynomial regression EPR, for analysis of stability of soil and rock slopes. Designmethodologyapproach EPR is a datadriven method based on evolutionary computing, aimed to search for polynomial structures representing a system. In this technique, a combination of the genetic algorithm and the least square method is used to find feasible structures and the appropriate constants for those structures. Findings EPR models are developed and validated using results from sets of field data on the stability status of soil and rock slopes. The developed models are used to predict the factor of safety of slopes against failure for conditions not used in the model building process. The results show that the proposed approach is very effective and robust in modelling the behaviour of slopes and provides a unified approach to analysis of slope stability problems. It is also shown that the models can predict various aspects of behaviour of slopes correctly. Originalityvalue In this paper a new evolutionary data mining approach is presented for the analysis of stability of soil and rock slopes. The new approach overcomes the shortcomings of the traditional and artificial neural networkbased methods presented in the literature for the analysis of slopes. EPR provides a viable tool to find a structured representation of the system, which allows the user to gain additional information on how the system performs. Purpose - Analysis of stability of slopes has been the subject of many research works in the past decades. Prediction of stability of slopes is of great importance in many civil engineering structures including earth dams, retaining walls and trenches. There are several parameters that contribute to the stability of slopes. This paper aims to present a new approach, based on evolutionary polynomial regression (EPR), for analysis of stability of soil and rock slopes. Design/methodology/approach - EPR is a data-driven method based on evolutionary computing, aimed to search for polynomial structures representing a system. In this technique, a combination of the genetic algorithm and the least square method is used to find feasible structures and the appropriate constants for those structures. Findings - EPR models are developed and validated using results from sets of field data on the stability status of soil and rock slopes. The developed models are used to predict the factor of safety of slopes against failure for conditions not used in the model building process. The results show that the proposed approach is very effective and robust in modelling the behaviour of slopes and provides a unified approach to analysis of slope stability problems. It is also shown that the models can predict various aspects of behaviour of slopes correctly. Originality/value - In this paper a new evolutionary data mining approach is presented for the analysis of stability of soil and rock slopes. The new approach overcomes the shortcomings of the traditional and artificial neural network-based methods presented in the literature for the analysis of slopes. EPR provides a viable tool to find a structured representation of the system, which allows the user to gain additional information on how the system performs. [PUBLICATION ABSTRACT]
Author	Javadi, Akbar A. Ahangar-Asr, Alireza Faramarzi, Asaad
Author_xml	– sequence: 1 givenname: Alireza surname: Ahangar-Asr fullname: Ahangar-Asr, Alireza organization: Computational Geomechanics Group, School of Engineering, Computer Science and Mathematics, University of Exeter, Exeter, UK – sequence: 2 givenname: Asaad surname: Faramarzi fullname: Faramarzi, Asaad organization: Computational Geomechanics Group, School of Engineering, Computer Science and Mathematics, University of Exeter, Exeter, UK – sequence: 3 givenname: Akbar A. surname: Javadi fullname: Javadi, Akbar A. organization: Computational Geomechanics Group, School of Engineering, Computer Science and Mathematics, University of Exeter, Exeter, UK
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SubjectTerms	Accuracy Algorithms Computation Equilibrium Evolutionary Geological analysis Geological engineering Mathematical models Methods Neural networks Programming and algorithm theory Rock Rocks Shear strength Slope deflection method Slope stability Slopes Soil (material) Soils Stability Stability control theory Studies
Title	A new approach for prediction of the stability of soil and rock slopes
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