基于行为本体的行星探测可重构多探测车仿真

Justin Jose, Divye Singh, Amit Patel, Harshal G. Hayatnagarkar
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引用次数: 0

摘要

对于行星探测,太空机构通常只派出一个机器人漫游者来完成任务。另一种方法是发送多个漫游者,这可以防止一个或多个漫游者失败。多漫游者任务的规划有自己的挑战,模拟可以帮助识别和解决这些挑战。在本文中,我们提出了一种基于本体的方法来模拟多漫游车行星探测任务,重点关注弹性、适应性、异质性和可重构性。我们提出了一个本体,描述了多个漫游者以及与着陆器一起运送的零件清单。我们的方法表明,基于本体的模拟有助于复杂的场景,例如从库存中借用零件,以及将损坏的漫游者回收为好零件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulating Re-configurable Multi-Rovers for Planetary Exploration Using Behavior-Based Ontology
For planetary explorations, the space agencies have usually sent single robotic rovers to complete missions. An alternative approach is to send multiple rovers, which can insure against failure of one or more rovers. Planning for a multi-rover mission has its own challenges, and simulations can aid in identifying and addressing such challenges. In this paper, we present an ontology-based approach to simulate a multi-rover planetary exploration mission, with a focus on resilience, adaptation, heterogeneity, and reconfigurability. We present an ontology that describes multiple rovers along with an inventory of their parts shipped with a lander. Our approach shows that having the ontology-based simulations help in complex scenarios such as to loan parts from inventory, and salvaging a damaged rover for good parts.
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