Dronology: An Incubator for Cyber-Physical Systems Research

2018 IEEE/ACM 40th International Conference on Software Engineering: New Ideas and Emerging Technologies Results (ICSE-NIER) Pub Date : 2018-04-06 DOI:10.1145/3183399.3183408

J. Cleland-Huang, Michael Vierhauser, Sean Bayley

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引用次数: 52

Abstract

Research in the area of Cyber-Physical Systems (CPS) is hampered by the lack of available project environments in which to explore open challenges and to propose and rigorously evaluate solutions. In this "New Ideas and Emerging Results" paper we introduce a CPS research incubator – based upon a system, and its associated project environment, for managing and coordinating the flight of small Unmanned Aerial Systems (sUAS). The research incubator provides a new community resource, making available diverse, high-quality project artifacts produced across multiple releases of a safety-critical CPS. It enables researchers to experiment with their own novel solutions within a fully-executable runtime environment that supports both high-fidelity sUAS simulations as well as physical sUAS. Early collaborators from the software engineering community have shown broad and enthusiastic support for the project and its role as a research incubator, and have indicated their intention to leverage the environment to address their own research areas of goal modeling, runtime adaptation, safety-assurance, and software evolution.

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无人机学:网络物理系统研究的孵化器

网络物理系统(CPS)领域的研究受到缺乏可用的项目环境的阻碍，在这些环境中探索开放的挑战，提出并严格评估解决方案。在这篇“新想法和新兴成果”的论文中，我们介绍了一个CPS研究孵化器——基于一个系统及其相关的项目环境，用于管理和协调小型无人机系统(sUAS)的飞行。研究孵化器提供了一种新的社区资源，使跨安全关键CPS的多个版本产生的多样化、高质量的项目工件可用。它使研究人员能够在完全可执行的运行时环境中实验他们自己的新颖解决方案，该环境既支持高保真sUAS模拟，也支持物理sUAS。来自软件工程社区的早期合作者已经对项目及其作为研究孵化器的角色表现出了广泛而热情的支持，并且已经表明了他们利用环境来解决他们自己的目标建模、运行时适应、安全保证和软件进化的研究领域的意图。

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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2018 IEEE/ACM 40th International Conference on Software Engineering: New Ideas and Emerging Technologies Results (ICSE-NIER)

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