面向冗余机械臂避障运动规划的触控交互技术

Baochen Zhang; Jianjiang Hui; Qi Zhang; Zhengxiong Liu; Panfeng Huang

doi:10.12305/j.issn.1001-506X.2024.01.29

面向冗余机械臂避障运动规划的触控交互技术

Translated title of the contribution: Touch interaction technology for obstacle avoidance motion planning of redundant manipulators

Baochen Zhang, Jianjiang Hui, Qi Zhang, Zhengxiong Liu, Panfeng Huang

School of Astronautics

Research output: Contribution to journal › Article › peer-review

Abstract

In view of the problem of weak human-robot interaction, complex obstacle avoidance algorithms, and difficulty in avoiding unstructured obstacles in the motion control of redundant manipulators, a touch interaction method for obstacle avoidance motion planning of redundant manipulators is proposed. The screen coordinates of interactive devices are transformed through coordinate system transformation to realize touch interaction, and the interaction efficiency is improved through cylindrical obstacle avoidance motion planning. Based on the Unreal Engine, a touch interaction demonstration software is designed to realize the motion obstacle avoidance simulation of redundant manipulators using touch interaction. Compared with the traditional method, it not only takes into account the friendliness of human-robot interaction, but also improves the operation efficiency and understandability of manipulator motion planning.

Translated title of the contribution	Touch interaction technology for obstacle avoidance motion planning of redundant manipulators
Original language	Chinese (Traditional)
Pages (from-to)	254-260
Number of pages	7
Journal	Xi Tong Gong Cheng Yu Dian Zi Ji Shu/Systems Engineering and Electronics
Volume	46
Issue number	1
DOIs	https://doi.org/10.12305/j.issn.1001-506X.2024.01.29
State	Published - 2024

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title = "面向冗余机械臂避障运动规划的触控交互技术",

abstract = "In view of the problem of weak human-robot interaction, complex obstacle avoidance algorithms, and difficulty in avoiding unstructured obstacles in the motion control of redundant manipulators, a touch interaction method for obstacle avoidance motion planning of redundant manipulators is proposed. The screen coordinates of interactive devices are transformed through coordinate system transformation to realize touch interaction, and the interaction efficiency is improved through cylindrical obstacle avoidance motion planning. Based on the Unreal Engine, a touch interaction demonstration software is designed to realize the motion obstacle avoidance simulation of redundant manipulators using touch interaction. Compared with the traditional method, it not only takes into account the friendliness of human-robot interaction, but also improves the operation efficiency and understandability of manipulator motion planning.",

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T1 - 面向冗余机械臂避障运动规划的触控交互技术

AU - Zhang, Baochen

AU - Hui, Jianjiang

AU - Zhang, Qi

AU - Liu, Zhengxiong

AU - Huang, Panfeng

PY - 2024

Y1 - 2024

N2 - In view of the problem of weak human-robot interaction, complex obstacle avoidance algorithms, and difficulty in avoiding unstructured obstacles in the motion control of redundant manipulators, a touch interaction method for obstacle avoidance motion planning of redundant manipulators is proposed. The screen coordinates of interactive devices are transformed through coordinate system transformation to realize touch interaction, and the interaction efficiency is improved through cylindrical obstacle avoidance motion planning. Based on the Unreal Engine, a touch interaction demonstration software is designed to realize the motion obstacle avoidance simulation of redundant manipulators using touch interaction. Compared with the traditional method, it not only takes into account the friendliness of human-robot interaction, but also improves the operation efficiency and understandability of manipulator motion planning.

AB - In view of the problem of weak human-robot interaction, complex obstacle avoidance algorithms, and difficulty in avoiding unstructured obstacles in the motion control of redundant manipulators, a touch interaction method for obstacle avoidance motion planning of redundant manipulators is proposed. The screen coordinates of interactive devices are transformed through coordinate system transformation to realize touch interaction, and the interaction efficiency is improved through cylindrical obstacle avoidance motion planning. Based on the Unreal Engine, a touch interaction demonstration software is designed to realize the motion obstacle avoidance simulation of redundant manipulators using touch interaction. Compared with the traditional method, it not only takes into account the friendliness of human-robot interaction, but also improves the operation efficiency and understandability of manipulator motion planning.

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KW - redundant manipulator

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面向冗余机械臂避障运动规划的触控交互技术

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