The numerical calculation method is widely used in the evaluation of slope stability, but it cannot take the randomness and fuzziness into account that exist in rock and soil engineering objectively. The fuzzy optimization theory is thus introduced to the evaluation of slope stability by this paper and a method of fuzzy optimal selection of similar slopes is put forward to analyze slope stability. By comparing the relative membership degrees that the evaluated object sample of slope is similar to the source samples of which the stabilities are detected clearly, the source sample with the maximal relative membership degree will be chosen as the best similar one to the object sample, and the stability of the object sample can be evaluated by ...
Slope engineering is a type of complex system engineering that is mostly involved in water conservan...
Rock mass classification systems are the most commonly used empirical tools in preliminary design of...
Slope stability analysis is undoubtedly one of the most complex problems in geotechnical engineering...
In order to get more practical uncertain results, according to different stability states, common sl...
The stability assessment of loess slopes is of great significance for slope reinforcement and safety...
Considerable uncertainty exist with regard to stability of slopes due to several factors and recogni...
Abstract — The main goal of this research is to predict the stability of slopes using fuzzy logic sy...
The main purpose of this paper is to investigate the slope stability condition by using fuzzy estima...
The stability assessment of slopes is difficult because of many uncertainties. Possibilistic approac...
This study presents a fuzzy logical decision-making algorithm based on block theory to effectively d...
Traditional slope stability analysis mostly adopts the limit equilibrium method, which predetermines...
Slope evaluation is a basic geotechnical engineering issue. The rationality of index weight greatly ...
There are many uncertainties with respect to the assessment of slope stability, and those associated...
Mine rock slope stability rating is the process of assessing its stability probability, analyzing it...
AbstractThe single safety factor criteria for slope stability evaluation, derived from the rigid lim...
Slope engineering is a type of complex system engineering that is mostly involved in water conservan...
Rock mass classification systems are the most commonly used empirical tools in preliminary design of...
Slope stability analysis is undoubtedly one of the most complex problems in geotechnical engineering...
In order to get more practical uncertain results, according to different stability states, common sl...
The stability assessment of loess slopes is of great significance for slope reinforcement and safety...
Considerable uncertainty exist with regard to stability of slopes due to several factors and recogni...
Abstract — The main goal of this research is to predict the stability of slopes using fuzzy logic sy...
The main purpose of this paper is to investigate the slope stability condition by using fuzzy estima...
The stability assessment of slopes is difficult because of many uncertainties. Possibilistic approac...
This study presents a fuzzy logical decision-making algorithm based on block theory to effectively d...
Traditional slope stability analysis mostly adopts the limit equilibrium method, which predetermines...
Slope evaluation is a basic geotechnical engineering issue. The rationality of index weight greatly ...
There are many uncertainties with respect to the assessment of slope stability, and those associated...
Mine rock slope stability rating is the process of assessing its stability probability, analyzing it...
AbstractThe single safety factor criteria for slope stability evaluation, derived from the rigid lim...
Slope engineering is a type of complex system engineering that is mostly involved in water conservan...
Rock mass classification systems are the most commonly used empirical tools in preliminary design of...
Slope stability analysis is undoubtedly one of the most complex problems in geotechnical engineering...