‘IXV-trajectory’ and ‘IXV-asset’: Virtual reality applications for the aerothermodynamics analysis of IXV

2015 IEEE Virtual Reality (VR) Pub Date : 2015-08-27 DOI:10.1109/VR.2015.7223463

Agata Marta Soccini, M. Marello, N. Balossino, V. Basso

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引用次数: 1

Abstract

Design and engineering of space vehicles involve several different disciplines, each of which have specific research methodologies and software tools. Interaction among the physical analysis tools, as well as collaboration among teams, is a delicate and difficult subject of collaborative engineering research topics. This paper presents a solution based on a new technical and interaction design. We encourage the development of Virtual Reality 3D applications to interface the tools that perform the quantitative physical analysis of given space vehicles, as this approach improves productivity and communication effectiveness and brings consisting benefits to the engineering and design collaborative processes. As an evaluation of this method, we report the design and implementation of two Virtual Reality Applications specifically developed for the European Space Agency's space vehicle IXV. This evaluation showed that users found the Virtual Reality interface easy to use and likely to be useful in their own work. The benefits underlined by this method brought to the acquirement of this approach as the new future standard methodology in pre-launch phases of space vehicles.

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“IXV轨迹”和“IXV资产”:用于IXV空气热力学分析的虚拟现实应用

空间飞行器的设计和工程涉及几个不同的学科，每个学科都有特定的研究方法和软件工具。物理分析工具之间的相互作用，以及团队之间的协作，是协作工程研究课题中一个微妙而困难的主题。本文提出了一种基于新技术和交互设计的解决方案。我们鼓励开发虚拟现实3D应用程序，为执行给定航天器定量物理分析的工具提供接口，因为这种方法提高了生产力和通信效率，并为工程和设计协作过程带来了广泛的好处。作为对这种方法的评估，我们报告了专门为欧洲航天局的空间飞行器IXV开发的两个虚拟现实应用程序的设计和实现。这次评估表明，用户发现虚拟现实界面易于使用，并且可能在他们自己的工作中有用。这种方法所强调的好处是使这种方法成为空间飞行器发射前阶段新的未来标准方法。

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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2015 IEEE Virtual Reality (VR)

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