Topological optimization of ballistic protective structures through genetic algorithms in a vulnerability-driven environment

IF 5 Q1 ENGINEERING, MULTIDISCIPLINARY
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引用次数: 0

Abstract

Reducing the vulnerability of a platform, i.e., the risk of being affected by hostile objects, is of paramount importance in the design process of vehicles, especially aircraft. A simple and effective way to decrease vulnerability is to introduce protective structures to intercept and possibly stop threats. However, this type of solution can lead to a significant increase in weight, affecting the performance of the aircraft. For this reason, it is crucial to study possible solutions that allow reducing the vulnerability of the aircraft while containing the increase in structural weight. One possible strategy is to optimize the topology of protective solutions to find the optimal balance between vulnerability and the weight of the added structures. Among the many optimization techniques available in the literature for this purpose, multi-objective genetic algorithms stand out as promising tools. In this context, this work proposes the use of a in-house software for vulnerability calculation to guide the process of topology optimization through multi-objective genetic algorithms, aiming to simultaneously minimize the weight of protective structures and vulnerability. In addition to the use of the in-house software, which itself represents a novelty in the field of topology optimization of structures, the method incorporates a custom mutation function within the genetic algorithm, specifically developed using a graph-based approach to ensure the continuity of the generated structures. The tool developed for this work is capable of generating protections with optimized layouts considering two different types of impacting objects, namely bullets and fragments from detonating objects. The software outputs a set of non-dominated solutions describing different topologies that the user can choose from.
在脆弱性驱动环境下通过遗传算法优化弹道防护结构的拓扑结构
降低平台的易损性,即受敌对物体影响的风险,在飞行器,尤其是飞机的设计过程中至关重要。降低易受攻击性的一个简单而有效的方法是采用防护结构来拦截和阻止威胁。然而,这种解决方案会导致重量大幅增加,影响飞机的性能。因此,研究既能降低飞机易受攻击程度,又能控制结构重量增加的可行解决方案至关重要。一种可行的策略是优化保护方案的拓扑结构,以在易损性和新增结构重量之间找到最佳平衡点。为此,文献中提供了许多优化技术,其中多目标遗传算法是很有前途的工具。在这种情况下,这项工作建议使用内部的脆弱性计算软件,通过多目标遗传算法指导拓扑优化过程,目的是同时最大限度地减少保护结构的重量和脆弱性。除了使用内部软件(这本身就是结构拓扑优化领域的一项创新)外,该方法还在遗传算法中加入了一个定制的突变函数,该函数专门采用基于图形的方法开发,以确保生成结构的连续性。考虑到两种不同类型的撞击物体,即子弹和引爆物体产生的碎片,为这项工作开发的工具能够生成具有优化布局的保护装置。该软件可输出一组描述不同拓扑结构的非主要解决方案,供用户选择。
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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来源期刊
Defence Technology(防务技术)
Defence Technology(防务技术) Mechanical Engineering, Control and Systems Engineering, Industrial and Manufacturing Engineering
CiteScore
8.70
自引率
0.00%
发文量
728
审稿时长
25 days
期刊介绍: Defence Technology, a peer reviewed journal, is published monthly and aims to become the best international academic exchange platform for the research related to defence technology. It publishes original research papers having direct bearing on defence, with a balanced coverage on analytical, experimental, numerical simulation and applied investigations. It covers various disciplines of science, technology and engineering.
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