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Zbl 1229.74114
Gholizadeh, Saeed; Salajegheh, Eysa
Optimal design of structures subjected to time history loading by swarm intelligence and an advanced metamodel. (English)
[J] Comput. Methods Appl. Mech. Eng. 198, No. 37-40, 2936-2949 (2009). ISSN 0045-7825

Summary: This paper proposes a new metamodeling framework that reduces the computational burden of the structural optimization against the time history loading. In order to achieve this, two strategies are adopted. In the first strategy, a novel metamodel consisting of adaptive neuro-fuzzy inference system (ANFIS), subtractive algorithm (SA), self organizing map (SOM) and a set of radial basis function (RBF) networks is proposed to accurately predict the time history responses of structures. The metamodel proposed is called fuzzy self-organizing radial basis function (FSORBF) networks. In this study, the most influential natural periods on the dynamic behavior of structures are treated as the inputs of the neural networks. In order to find the most influential natural periods from all the involved ones, ANFIS is employed. To train the FSORBF, the input-output samples are classified by a hybrid algorithm consisting of SA and SOM clusterings, and then a RBF network is trained for each cluster by using the data located. In the second strategy, particle swarm optimization (PSO) is employed to find the optimum design. Two building frame examples are presented to illustrate the effectiveness and practicality of the proposed methodology. A plane steel shear frame and a realistic steel space frame are designed for optimal weight using exact and approximate time history analyses. The numerical results demonstrate the efficiency and computational advantages of the proposed methodology.

MSC 2000:: *74P10 Optimization of other properties

Keywords: earthquake; particle swarm optimization; neural network; adaptive neuro-fuzzy inference system; subtractive algorithm; self-organizing map; radial basis function

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Zentralblatt MATH Berlin [Germany]