Qinghe Shi scite author profile

 The reliability-based design optimization and safety factor method is compared for the optimization result and process. The reliability-based design optimization method including probabilistic reliability and nonprobabilistic reliability are given. The viewpoint is illustrated by two numerical examples including a two-bar truss and a supersonic wing structure.Abstract: Reliability-based design optimization theory has been widely acknowledged as an advanced and advantageous methodology for complex structural system design. Comparatively, the traditional safety factor design method has fallen out of favor with designers since it is simply just a comprehensive expression of all the uncertainties existing in a practical engineering structure, which has been verified to be unreasonable. Moreover, there is no description of the method for searching for the optimal design. In this paper, a comparison of the two approaches is performed for the optimization results and process. It is demonstrated that the weight of the designed structure by the reliability-based optimization is not heavier than that by the safety factor design method under the same reliability requirements. The time efficiency, error estimates and sensitivity analysis are also compared to discuss the advantages and disadvantages of the two approaches.Eventually, the advancement of the reliability-based design optimization is illustrated with optimization designs of a two-bar truss and one practical supersonic wing.

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An iterative dimension-by-dimension method for structural interval response prediction with multidimensional uncertain variables

Xiong

Wang

Liu

et al. 2019

Aerospace Science and Technology

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Damage evolution analysis of open-hole tensile laminated composites using a progress damage model verified by AE and DIC

Han

Shi

et al. 2020

Composite Structures

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Sequential optimization and fuzzy reliability analysis for multidisciplinary systems

Wang

Xiong

Liu

et al. 2019

Struct Multidisc Optim

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Qinghe Shi

Motion error based robust topology optimization for compliant mechanisms under material dispersion and uncertain forces

Comparison of the reliability-based and safety factor methods for structural design

An iterative dimension-by-dimension method for structural interval response prediction with multidimensional uncertain variables

Damage evolution analysis of open-hole tensile laminated composites using a progress damage model verified by AE and DIC

Sequential optimization and fuzzy reliability analysis for multidisciplinary systems

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