Design and Implementation of a Modular Manipulator Architecture

机译：模块化机械手体系结构的设计与实现

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The Joint Architecture for Unmanned Systems (JAUS) has successfully established a well-defined component interface for unmanned mobile systems, but has yet to address the implications of such systems requiring an on-board robot manipulator. This configuration is seen in many applications including planetary exploration, hazardous materials removal, and marine research and is frequently referred to as the vehicle-manipulator system. The purpose of our study was to develop and implement a set of JAUS components that will allow for tele-operational (teleop) and autonomous control of a vehicle-manipulator platform. Teleop control is the control of a system by the direct input of a human or a computer. Autonomous control is a cooperative mode between the vehicle and the manipulator. Testing and implementation of these components was performed on a 6-degree-of-freedom (6-DOF) Puma 762 robot manipulator (Unimation Westinghouse, Danbury, Connecticut) outfitted with a commercially available Galil motion controller (Galil Motion Control, Inc, Rocklin, California). Successful completion and adequate compatibility to the outlined JAUS performance specifications would ensure the inception of the above mentioned components to the latest version of the document's Reference Architecture. Even though this modular manipulator architecture is suitable for both autonomous and teleop control, testing and results were based solely on the input provided using a graphical user interface on a computer.

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作者
Sosa, O.;
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年度 2004
页码 1-226
总页数 226
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Software engineering; Robots; Man machine systems; Algorithms; Control systems; Unmanned; Systems analysis; Graphical user interface; Autonomous navigation; Standards; Theses; Automation; Interoperability;

机译：软件工程;机器人;人机系统;算法;控制系统;无人驾驶;系统分析;图形用户界面;自主导航;标准;论文;自动化;互操作性;

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Design and Implementation of a Modular Manipulator Architecture

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