Evolution of the IEEE P7009 Standard: Towards Fail-Safe Design of Autonomous Systems

2021 IEEE International Symposium on Software Reliability Engineering Workshops (ISSREW) Pub Date : 2021-10-01 DOI:10.1109/ISSREW53611.2021.00109

M. Farrell, Matt Luckcuck, Laura Pullum, M. Fisher, A. Hessami, Danit Gal, Zvikomborero Murahwi, Ken Wallace

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引用次数: 6

Abstract

Autonomous systems are complex, diverse, and likely be used in environments that change unpredictably. We must develop mechanisms to cope with failures, potentially caused by both the natural stresses of the operating environment and the system's inadequate environmental models. Failures also arise from system component wear. In 2016, the IEEE launched the Global Initiative on Ethics of Autonomous and Intelligent Systems in response to the proliferation of increasingly-autonomous systems. A cornerstone of this initiative is the IEEE P7000 series of projects, which set the standards for the future of ethical intelligent and autonomous technologies. This paper describes the ongoing development of the IEEE P7009 standard on “Fail-Safe Design of Autonomous and Semi-Autonomous Systems”. We provide a collective perspective on the ongoing development of IEEE P7009, and outline the objectives, current approaches, issues under discussion, and two exemplar use cases from different sectors: one high-regulation, the other low-regulation.

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IEEE P7009标准的演进:迈向自动系统的故障安全设计

自治系统是复杂的、多样的，并且可能在变化不可预测的环境中使用。我们必须建立机制来应对故障，这些故障可能是由操作环境的自然压力和系统不适当的环境模型造成的。故障也可由系统部件磨损引起。2016年，IEEE发起了自主和智能系统伦理全球倡议，以应对日益自治的系统的扩散。这一倡议的基石是IEEE P7000系列项目，它为未来的道德智能和自主技术设定了标准。本文描述了IEEE P7009“自主和半自主系统的故障安全设计”标准的持续发展。我们提供了关于IEEE P7009正在进行的开发的集体观点，并概述了目标、当前方法、讨论中的问题，以及来自不同部门的两个示例用例:一个是高监管，另一个是低监管。

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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2021 IEEE International Symposium on Software Reliability Engineering Workshops (ISSREW)

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