Mechanism topology design for novel parallel-parallel hexapod robot

2014 UKACC International Conference on Control (CONTROL) Pub Date : 2014-07-09 DOI:10.1109/CONTROL.2014.6915231
Yang Pan, F. Gao
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引用次数: 3

Abstract

The Octopus is a hexapod robot designed for research on emergency rescue missions in nuclear plants. The robot focused on load-bearing capability and adaptability in different unknown radiation scenarios. Compared with other legged robots, the main difference is that the robot applied 3 degree of freedom (DOF) parallel mechanism which improves the payload capability significantly. In this paper, first the background and the robot system is introduced. Then mechanism topology design methodology is mainly discussed. In our design process, the GF set theory is used which design the limb type from the end-effector requirements. Finally the relative experiments are briefly shown.
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新型并联-并联六足机器人机构拓扑设计
章鱼是一个六足机器人,设计用于研究核电站的紧急救援任务。重点研究了机器人在不同未知辐射场景下的承载能力和适应性。与其他有腿机器人相比,主要区别在于该机器人采用了3自由度并联机构,大大提高了载荷能力。本文首先介绍了本课题的研究背景和机器人系统。然后重点讨论了机构拓扑设计方法。在设计过程中,采用GF集理论,从末端执行器的要求出发,设计肢体类型。最后简要介绍了相关实验。
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2014 UKACC International Conference on Control (CONTROL)
2014 UKACC International Conference on Control (CONTROL)
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