A Mapping of Assurance Techniques for Learning Enabled Autonomous Systems to the Systems Engineering Lifecycle

2022 IEEE International Conference on Assured Autonomy (ICAA) Pub Date : 2022-03-01 DOI:10.1109/ICAA52185.2022.00013

Christian Ellis, Maggie B. Wigness, L. Fiondella

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引用次数: 1

Abstract

Learning enabled autonomous systems provide increased capabilities compared to traditional systems. However, the complexity of and probabilistic nature in the underlying methods enabling such capabilities present challenges for current systems engineering processes for assurance, and test, evaluation, verification, and validation (TEVV). This paper provides a preliminary attempt to map recently developed technical approaches in the assurance and TEVV of learning enabled autonomous systems (LEAS) literature to a traditional systems engineering v-model. This mapping categorizes such techniques into three main approaches: development, acquisition, and sustainment. This mapping reviews the latest techniques to develop safe, reliable, and resilient learning enabled autonomous systems, without recommending radical and impractical changes to existing systems engineering processes. By performing this mapping, we seek to assist acquisition professionals by (i) informing comprehensive test and evaluation planning, and (ii) objectively communicating risk to leaders.

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学习自治系统到系统工程生命周期的保证技术映射

与传统系统相比，支持学习的自主系统提供了更高的功能。然而，支持这些能力的底层方法的复杂性和概率性为保证、测试、评估、验证和确认(TEVV)的当前系统工程过程提出了挑战。本文提供了一个初步的尝试，将最近在学习自主系统(LEAS)文献的保证和TEVV中开发的技术方法映射到传统的系统工程v模型。这种映射将这些技术分为三种主要方法:开发、获取和维护。该映射回顾了开发安全、可靠和有弹性的自主学习系统的最新技术，而不建议对现有系统工程过程进行激进和不切实际的更改。通过执行这一映射，我们寻求通过(i)告知全面的测试和评估计划，以及(ii)客观地向领导者传达风险来帮助获取专业人员。

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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2022 IEEE International Conference on Assured Autonomy (ICAA)

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