通过自主性克服机器人故障

Fourth IEEE International Workshop on Engineering of Autonomic and Autonomous Systems (EASe'07) Pub Date : 2007-03-26 DOI:10.1109/EASE.2007.21

C. Rouff, J. Rash, W. Truszkowski

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引用次数: 3

摘要

美国国家航空航天局正在追求越来越多的自主系统来执行新的科学和探索。这些任务将在非常恶劣和恶劣的环境中长时间与任务控制中心失去联系。为了成功地自主执行这些任务，它们必须具有自主特性。最近有一些关于机器人系统失败的研究，研究了机器人是如何在这个领域失败的。通过研究机器人中发生的故障类型，自主特性不仅可以用于机器人，还可以用于NASA的自主任务，使其更加健壮。本文研究了在机器人故障研究中发现的故障，并将它们映射到一些可以解决这些故障的自主特性上。通过对故障进行分类，然后将其映射到自主属性，可以开发出自主属性的类别，然后可以针对每个特定任务进行专门处理

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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Overcoming Robotic Failures through Autonomicity

NASA is pursing ever increasing autonomous systems to perform new science and exploration. These missions will be out of contact with mission control for extended periods of time in very harsh and unforgiving environments. To successfully perform these missions autonomously, they will have to have autonomic properties. There have been recent studies of failures of robotic systems that examine how robots are failing in the field. By studying the types of failures that are occurring in robots autonomic properties can be developed for not only robots but for NASA autonomous missions to make them more robust. This paper examines the failures that were identified in a study of robot failures and maps them on to some autonomic properties that would address these failures. By classifying the failures and then mapping them to autonomic properties, classes of autonomic properties can be developed that can then be specialized for each particular mission

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Fourth IEEE International Workshop on Engineering of Autonomic and Autonomous Systems (EASe'07)

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