飞行机器人的控制方法

2023 4th International Seminar on Artificial Intelligence, Networking and Information Technology (AINIT) Pub Date : 2023-06-16 DOI:10.1109/AINIT59027.2023.10212987

Yizhu Zhang, Lizhong Lu, Wei Ding, Sihan Li, Guangpu Wang, X. Liu

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引用次数: 0

摘要

本文提出了一种飞行机器人控制方法，通过控制飞行机器人飞到参考悬停点，激活机械臂进行抓取操作，抓取空中物体。在抓取过程中，获得多旋翼飞行平台的第一运动学信息和机械手的第二运动学信息。根据第一运动学信息和第二运动学信息，计算出机械手基座的扰动力和扰动力矩。根据扰动力和扰动力矩，计算了六自由度位姿补偿装置的补偿力。控制六自由度位姿补偿装置输出补偿力来补偿机械手基座的位姿扰动。这可以提高机械臂末端姿态控制的精度，实现对空中物体的可靠抓取。

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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A Control Method for Flying Robots

This paper proposes a flight robot control method by controlling the flight robot to fly to a reference hover point and activating the robotic arm for grasping operations to grasp airborne objects. During the grasping operation, the first kinematics information of the multi rotor flight platform and the second kinematics information of the manipulator are obtained. According to the first kinematics information and the second kinematics information, calculate the disturbance force and disturbance torque of the manipulator base. According to the disturbance force and disturbance torque, the compensation force of the Six degrees of freedom pose compensation device is calculated. The Six degrees of freedom pose compensation device is controlled to output compensation force to compensate the pose disturbance of the manipulator base. This can improve the accuracy of pose control at the end of the robotic arm and achieve reliable grasping of aerial objects.

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来源期刊

2023 4th International Seminar on Artificial Intelligence, Networking and Information Technology (AINIT)

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