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Charged system search for optimum grillage system design using the LRFD-AISC code

Kaveh, A. / Talatahari, S.

AbstractGrillage systems are widely used in structures to cover large areas in bridge decks, ship hulls and floors. In this paper, the charged system search (CSS) algorithm is utilized to obtain the optimum design of grillage systems. This algorithm is inspired by the Coulomb and Gauss laws of electrostatics in physics and the governing laws of motion from Newtonian mechanics. The cross-sectional properties of beams are considered as the design variables. Comparison of the results with those of some previous studies shows the robustness of the new algorithm.

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Charged system search for optimum grillage system design using the LRFD-AISC code

Kaveh, A. / Talatahari, S.

AbstractGrillage systems are widely used in structures to cover large areas in bridge decks, ship hulls and floors. In this paper, the charged system search (CSS) algorithm is utilized to obtain the optimum design of grillage systems. This algorithm is inspired by the Coulomb and Gauss laws of electrostatics in physics and the governing laws of motion from Newtonian mechanics. The cross-sectional properties of beams are considered as the design variables. Comparison of the results with those of some previous studies shows the robustness of the new algorithm.

Charged system search for optimum grillage system design using the LRFD-AISC code

Kaveh, A. / Talatahari, S.

AbstractGrillage systems are widely used in structures to cover large areas in bridge decks, ship hulls and floors. In this paper, the charged system search (CSS) algorithm is utilized to obtain the optimum design of grillage systems. This algorithm is inspired by the Coulomb and Gauss laws of electrostatics in physics and the governing laws of motion from Newtonian mechanics. The cross-sectional properties of beams are considered as the design variables. Comparison of the results with those of some previous studies shows the robustness of the new algorithm.

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Title:

Charged system search for optimum grillage system design using the LRFD-AISC code

Contributors:

Kaveh, A. (author) / Talatahari, S. (author)

Published in:

Journal of Constructional Steel Research ; 66 ; 767-771

Publication date:

2010-01-13

Size:

5 pages

ISSN:

DOI:

https://doi.org/10.1016/j.jcsr.2010.01.007

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Charged system search , Heuristic optimization algorithm , Grillage systems , Warping

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