Multiobjective Reliability-Based Design of an Aircraft Wing Using a Fuzzy-Based Metaheuristic

Volume 13: Safety Engineering, Risk, and Reliability Analysis; Research Posters Pub Date : 2021-11-01 DOI:10.1115/imece2021-71001

Seksan Winyangkul, Suwin Sleesongsom, Sujin Bureerat

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引用次数: 5

Abstract

This research presents a new multiobjective fuzzy-based metaheuristic (MOFBMH) for aircraft wing design, which considers the uncertain structural design based on a fuzzy set model. Usually, the objective of this kind of design problem is to minimize weight of the composite wing with failure possibility constraints rather than converting it to multiobjective optimization with a fuzzy variable vector for material properties and loading conditions. The proposed technique is established in the form of multiobjective optimization, which sets the possibilistic safety index (PSI) as an objective function along with structural weight. This technique can explore a possible reliability solution set in one optimization run, which is advantageous. The present technique is one of the posteriori-techniques that start with finding all solutions and choosing it later. Two design examples are used to demonstrate the present technique i.e.simple cantilever beam and composite aeroelastic wing design problems.The results show the proposed technique can explore all possible structures, which are more conservative, and realizable.

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基于模糊元启发式的机翼多目标可靠性设计

提出了一种基于模糊集模型的飞机机翼设计多目标模糊元启发式方法，该方法考虑了结构设计的不确定性。通常，这类设计问题的目标是在失效可能性约束下使复合材料机翼的重量最小化，而不是将其转化为基于材料性能和载荷条件的模糊变量向量的多目标优化。该方法以多目标优化的形式建立，以可能性安全指数(PSI)为目标函数，随结构权重的变化而变化。该技术可以在一次优化运行中探索一个可能的可靠性解集，这是非常有利的。目前的技术是一种后发技术，从找到所有的解决方案开始，然后再选择它。以简单悬臂梁和复合气动弹性翼的设计为例，对该方法进行了验证。结果表明，该方法可以探索所有可能的结构，具有较强的保守性和可实现性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 13: Safety Engineering, Risk, and Reliability Analysis; Research Posters

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