NASA自主系统的概念图自优化

Third IEEE International Workshop on Engineering of Autonomic & Autonomous Systems (EASE'06) Pub Date : 2006-03-27 DOI:10.1109/EASE.2006.11

D. Corbett, C. Rouff

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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，它们必须具有自主属性来实现任务目标。其中一个特性，自我优化，将对这些任务至关重要，因为深空科学和探索本质上需要在未知环境中进行操作。再加上这些任务的自主性质，它们将需要一种方法来随着任务的进展和对实际环境的了解而优化自己。本文介绍了SAIC正在开发的一种基于概念图的自优化技术。本文将概述概念图，以及如何在自治系统中使用概念图来实现自优化

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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Self Optimization using Conceptual Graphs for NASA Autonomous Systems

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 to achieve their mission goals. One of theses properties, self-optimization, will be vital to these missions since deep space science and exploration by their nature require operations in unknown environments. Coupling this with the autonomous nature of these missions, they will require a means to optimize themselves as the mission progresses and the actual environment becomes better known. This paper introduces a self-optimization technique that is being developed at SAIC based on conceptual graphs. In this paper an overview of conceptual graphs will be given and how they can be used in autonomous systems to achieve self-optimization

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Third IEEE International Workshop on Engineering of Autonomic & Autonomous Systems (EASE'06)

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