A Virtual Testing Simulation Environment for the ESA’s Micro Vibrations Measurement System

Aerotecnica Missili & Spazio Pub Date : 2024-04-23 DOI:10.1007/s42496-024-00216-6

Leonardo Peri, Michelino Pagano, Lorenzo Dozio, Pietro Nali

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Abstract

This paper presents the evaluation of various model reduction techniques as possible candidates for building a virtual testing simulation environment of the ESA’s Micro Vibrations Measurement System (MVMS). The resulting tool would represent a key enabling technology for optimization of the tests to be carried out by the facility for the characterization of potential microvibration sources and environments. The present investigation involves both component mode synthesis and state-space based methods. In particular, an enhanced version of the Craig–Bampton (CB) method with substructuring and a hybrid two-stage approach involving a preliminary CB reduction step followed by a balanced truncation are presented and discussed. The number of dominant vibration modes to be retained in each substructure is determined according to the effective interface mass criterion. The different model reduction methods are compared in terms of performance and computational effort. It is shown that some preferable techniques can be identified for the specific purposes of the virtual testing environment of the MVMS.

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欧空局微振动测量系统的虚拟测试模拟环境

本文介绍了各种模型简化技术作为建立欧空局微振动测量系统（MVMS）虚拟测试仿真环境的可能候选技术的评估。由此产生的工具将代表一项关键的使能技术，用于优化该设施将进行的测试，以表征潜在的微振动源和环境。目前的研究包括组件模式综合和基于状态空间的方法。特别是，Craig-Bampton （CB）方法的改进版本与子结构和混合两阶段的方法涉及一个初步的CB减少步骤，然后是一个平衡截断提出和讨论。根据有效界面质量准则确定每个子结构中保留的优势振动模态数。比较了不同的模型约简方法的性能和计算量。结果表明，对于MVMS虚拟测试环境的特定目的，可以确定一些较好的技术。

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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Aerotecnica Missili & Spazio

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