Space robotics: automata in unstructured environments

Proceedings, 1989 International Conference on Robotics and Automation Pub Date : 1989-05-14 DOI:10.1109/ROBOT.1989.100186

R. Lumia

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引用次数: 13

Abstract

The problems associated with the development of robots for space applications are reviewed. Within the Space Station project context, robots will operate in a relatively unstructured environment and must have the ability to deal with unexpected events. For this to be possible, a great deal of experimentation is required to determine the best algorithms for task decomposition, world modeling, and sensory processing to be able to predict their utility for particular tasks. An architecture which supports the evolutionary development of the robot is presented. The architecture forms the basis for a testbed system which allows researchers to develop, test, and evaluate different hardware and software approaches. The same architecture is also used in the telerobot, so that the transition from the teleoperated mode to more autonomous modes of robot operation is one of gradual rather than abrupt change. This architecture, the NASA/NBS standard reference model for telerobot control systems, has been adopted by NASA for the Flight Telerobotic Servicer, a two-armed robot intended to help build and maintain the Space Station.<>

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空间机器人:非结构化环境中的自动机

综述了与空间应用机器人发展有关的问题。在空间站项目的背景下，机器人将在相对非结构化的环境中运行，并且必须具有处理意外事件的能力。为了实现这一点，需要进行大量的实验来确定任务分解、世界建模和感觉处理的最佳算法，以便能够预测它们对特定任务的效用。提出了一种支持机器人进化发展的体系结构。该体系结构构成了测试平台系统的基础，该系统允许研究人员开发、测试和评估不同的硬件和软件方法。在遥控机器人中也使用了相同的架构，因此从遥控操作模式到更自主的机器人操作模式的过渡是一个渐进的而不是突然的变化。这种架构是NASA/NBS遥控机器人控制系统的标准参考模型，已被NASA用于飞行遥控机器人服务，这是一种双臂机器人，旨在帮助建造和维护空间站。

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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Proceedings, 1989 International Conference on Robotics and Automation

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