Modeling and control of a hexacopter with a passive manipulator for aerial manipulation

Pin Guo; Kun Xu; Huichao Deng; Haoyuan Liu; Xilun Ding

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Modeling and control of a hexacopter with a passive manipulator for aerial manipulation

机译：用无源机械手进行空中操纵的六泊位的建模与控制

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In this paper, a multi-propeller aerial robot with a passive manipulator for aerial manipulation is presented. In order to deal with the collision, external disturbance, changing inertia, and underactuated characteristic during the aerial manipulation, an adaptive trajectory linearization control (ATLC) scheme is presented to stabilize the multi-propeller aerial robot during the whole process. The ATLC controller is developed based on trajectory linearization control (TLC) method and model reference adaptive control (MRAC) method. The stability of the proposed system is analyzed by common Lyapunov function. Numerical simulations are carried out to compare the ATLC with TLC controller facing collision, external disturbance and changing inertia during an aerial manipulation. Experimental results prove that the developed robot can achieve aerial manipulation in the outdoor environment.

机译：本文提出了一种具有用于空中操作的无源操纵器的多推进器空中机器人。为了处理空中操作期间的碰撞，外部干扰，改变惯性和欠施特性，提出了一种自适应轨迹线性化控制（ATLC）方案以在整个过程中稳定多螺旋桨亚空间机器人。 ATLC控制器是基于轨迹线性化控制（TLC）方法和模型参考自适应控制（MRAC）方法而开发的。通过普通的Lyapunov函数分析所提出的系统的稳定性。进行数值模拟，以将ATLC与TLC控制器的面对碰撞，外部干扰和在空中操作期间变化的惯性进行比较。实验结果证明，开发的机器人可以在室外环境中实现空中操纵。

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来源
《Complex & Intelligent Systems 》 |2021年第6期| 共15页
作者
Pin Guo; Kun Xu; Huichao Deng; Haoyuan Liu; Xilun Ding;
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中图分类自动化技术及设备 ;
关键词
Aerial manipulationTrajectory linearization controlMulti-propeller aerial robot;

机译：空中手工扫描线性化控制多功能螺旋桨空中机器人;

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机译：基于装备综合式机械手的六泊位的移动机器人导航控制和稳定性研究
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机译：基于装备综合式机械手的六泊位的移动机器人导航控制和稳定性研究
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机译：装备空中机械手的六泊车的导航控制和稳定性研究
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机译：移动操纵无人机的视觉和运动学协调控制
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机译：基于装备综合式机械手的六泊位的移动机器人导航控制和稳定性研究
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Modeling and control of a hexacopter with a passive manipulator for aerial manipulation

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