A practical implementation of a hierarchical control system for telerobotic land vehicles

[Proceedings] NTC-92: National Telesystems Conference Pub Date : 1992-05-19 DOI:10.1109/NTC.1992.267912

R. H. Bryne

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Abstract

The author presents a practical hierarchical control system for telerobotic land vehicles. The goal of the architecture is to enable the user to have a relatively inexpensive control system that can be easily upgraded as the application demands. This is accomplished by having low-level modules that provide interfaces to hardware and the external environment and communicate with higher levels through the global memory. The levels of the hierarchy above the first level, referred to as layers of intelligence, are application dependent and allow the vehicle to execute more autonomous operation as the layers are added. There remains an operator interface to all levels of the hierarchy so that previous capabilities may be demonstrated while adding new levels. This architecture was implemented on RAYBOT, a robotic land vehicle at Sandia National Laboratories. The vehicle control module and the first layer of intelligence (teleoperation) have been implemented in hardware and have performed well. The ability to make quick modifications to the control system and the advantages of the hierarchical architecture have been demonstrated.<>

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遥动机器人陆地车辆层次控制系统的实际实现

作者提出了一种实用的远程机器人陆地车辆层次控制系统。该体系结构的目标是使用户能够拥有一个相对便宜的控制系统，可以根据应用程序的需求轻松升级。这是通过低级模块来实现的，低级模块为硬件和外部环境提供接口，并通过全局内存与更高级别的模块通信。在第一层之上的层次结构级别(称为智能层)依赖于应用程序，并且随着层的增加，允许车辆执行更自主的操作。层级结构的所有级别都保留了一个操作员界面，以便在添加新级别时可以演示以前的功能。该架构在桑迪亚国家实验室的RAYBOT机器人陆地车辆上实现。车辆控制模块和第一层智能(远程操作)已在硬件上实现，并取得了良好的效果。对控制系统进行快速修改的能力和分层结构的优点已经得到证明。

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] NTC-92: National Telesystems Conference

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