两个遗留的多智能体系统——LOGOS和ACT的一些自治特性

Proceedings. 11th IEEE International Conference and Workshop on the Engineering of Computer-Based Systems, 2004. Pub Date : 2004-05-24 DOI:10.1109/ECBS.2004.1316738

W. Truszkowski, J. Rash, C. Rouff, M. Hinchey

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引用次数: 22

摘要

为了降低未来太空飞行任务的成本并开展新的科学研究，美国宇航局一直在研究自主地面和太空飞行系统。由于NASA计划使用星座和纳米卫星群进行未来的科学数据收集，这些降低成本的目标变得更加复杂，这可能会导致大量的通信延迟和与地面控制中心长时间失去联系。本文描述了美国宇航局戈达德太空飞行中心(GSFC)为演示未来太空飞行任务的自主操作而开发的两个基于智能体的原型系统——熄灯地面操作系统(LOGOS)和智能体概念试验台(ACT)，以及它们的自主特性。本文讨论了两种基于智能体的系统的体系结构、运行场景以及两种系统的自治特性。

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Some autonomic properties of two legacy multi-agent systems - LOGOS and ACT

To reduce the cost of future space flight missions and to perform new science, NASA has been investigating autonomous ground and space flight systems. These goals of cost reduction have been further complicated by NASA's plans to use constellations and swarms of nanosatellites for future science data-gathering which may entail large communications delays and loss of contact with ground control for extended periods of time. This paper describes two prototype agent-based systems, the Lights-out Ground Operations System (LOGOS) and the Agent Concept Testbed (ACT), and their autonomic properties that were developed at NASA Goddard Space Flight Center (GSFC) to demonstrate autonomous operations of future space flight missions. The paper discusses the architecture of the two agent-based systems, operational scenarios of both, and the two systems' autonomic properties.

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Proceedings. 11th IEEE International Conference and Workshop on the Engineering of Computer-Based Systems, 2004.

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