Coupled Interval Genetic Algorithm Technique with the Finite Element Method for the Interval Optimization of Structures

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概要

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• This paper combines a verified interval optimization method with the FEM for designing structures, which is denominated as the Hybrid Interval Genetic Algorithm (HIGA). This algorithm can neglect formulated equations and interval analysis, and while determining the optimum interval parameters. Furthermore, it can also maximize the design scope. In this paper, this algorithm is implemented for both a truss and frame structure. The interval optimizations include the static and dynamic responses of these structures. The results show that the algorithm which combines the IGA with the FEM can determine the feasible interval design parameters of structures with allowable objective errors.

• 一般社団法人 日本機械学会の論文

著者

• SHIAU Ting-Nung

  National Chung Cheng University

• HSU Wei-Chun

  Wu Feng Instisute of Technology

• KANG Chung-Hao

  National University of Tainan

• LIU De-Shin

  National Chung Cheng University

• KANG Chung-Hao

  National Chung Cheng University

関連論文

• Dynamic Response of a Rotating Multi-Span Shaft with Elastic Bearings Subjected to a Moving Load
• Coupled Interval Genetic Algorithm Technique with the Finite Element Method for the Interval Optimization of Structures

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