Towards State-of-the-Art and Future Trends in Testing of Active Safety Systems

2016 IEEE/ACM 2nd International Workshop on Software Engineering for Smart Cyber-Physical Systems (SEsCPS) Pub Date : 2016-05-14 DOI:10.1145/2897035.2897037

Alessia Knauss, C. Berger, H. Eriksson

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引用次数: 6

Abstract

Cyber-physical systems integrate computational and physical processes and allow for smart applications like smart transportation, smart buildings, and safety systems. While some applications support us in our daily life, others are safety-critical like vehicular active safety systems. Systematic testing of such critical cyber-physical systems is a crucial, but very challenging task that so far has received little research attention. In this paper, we present an investigation on the state-of-the-art and future trends of testing critical cyber-physical systems on the example of active safety systems for vehicles. We conducted four focus groups with Swedish industrial partners as well as systematically studied proceedings of a recent active safety conference. Our results show that while the main testing processes and scenarios are supported, there is a clear need to enable testing of more complex scenarios in realistic settings, as well as increasing the degree of automating therefor to achieve better repeatability and a more effective test resource usage.

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主动安全系统测试的最新技术和未来趋势

网络物理系统集成了计算和物理过程，并允许智能应用，如智能交通，智能建筑和安全系统。虽然一些应用程序支持我们的日常生活，但其他应用程序对安全至关重要，如车辆主动安全系统。对这种关键的网络物理系统进行系统测试是一项至关重要但非常具有挑战性的任务，迄今为止很少受到研究的关注。在本文中，我们以车辆主动安全系统为例，对测试关键网络物理系统的现状和未来趋势进行了调查。我们与瑞典工业合作伙伴进行了四个焦点小组讨论，并系统地研究了最近一次主动安全会议的会议记录。我们的结果表明，虽然主要的测试过程和场景得到了支持，但是很明显需要在现实环境中对更复杂的场景进行测试，以及增加自动化的程度，从而实现更好的可重复性和更有效的测试资源使用。

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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2016 IEEE/ACM 2nd International Workshop on Software Engineering for Smart Cyber-Physical Systems (SEsCPS)

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