Structure identification of fuzzy model
Fuzzy Sets and Systems
On stress resultant geometrically exact shell model. Part I: formulation and optimal parametrization
Computer Methods in Applied Mechanics and Engineering
A course in fuzzy systems and control
A course in fuzzy systems and control
A simple algorithm for training fuzzy systems using input-output data
Advances in Engineering Software
A fuzzy system for evaluating the risk of change in construction projects
Advances in Engineering Software
Stability conditions of fuzzy systems and its application to structural and mechanical systems
Advances in Engineering Software
Fuzzy logic model for the prediction of bond strength of high-strength lightweight concrete
Advances in Engineering Software
Advances in Engineering Software
Multi-objective fuzzy optimization of space trusses by Ms-Excel
Advances in Engineering Software
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A fuzzy system has been developed to estimate the overall and local buckling behavior of cylindrical tubular members under monotonic axial compression. To train and test the fuzzy system, numerical data obtained from the finite element analyses is utilized. For this aim, a degenerate-continuum shell element which accounts for material and geometric nonlinearity is employed. Also, a least squares algorithm has been applied to determine the parameters of the fuzzy system such that the resulting fuzzy system accomplishes the desired performance. The proposed fuzzy system is capable of tracing the complete load-shortening relation and provides a tool for faster analysis.