Robust Control for Unmanned Aerial Manipulator Under Disturbances

Chen, Yanjie; Zhan, Weiwei; He, Bingwei; Lin, Lixiong; Miao, Zhiqiang; Yuan, Xiaofang; Wang, Yaonan

doi:10.1109/access.2020.3008971

Cited by 20 publications

(16 citation statements)

References 27 publications

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“…Attitudes of quadrotor (rigid body) have a set of 3 × 3 orthogonal matrix, whose determinant is one, known as Special Orthogonal 𝑆𝑂(3) [3]. Different control techniques have been developed to improve the ability of quadrotors, such as PID [4]- [7], sliding-mode [8]- [10], and fuzzy logic [11]- [13]. In addition, the combination of conventional control algorithms with artificial intelligence algorithms has been developed.…”

Section: Introductionmentioning

confidence: 99%

Attitude Control of a Quadrotor with Fuzzy Logic Controller on SO(3)

Ginting¹,

Doo

Pollo

et al. 2022

Journal of Robotics and Control

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A quadrotor is an unmanned aerial vehicle (UAV) with two pairs of rotors rotating in opposite directions. Some of its unique abilities are hovering and vertical take-off and landing (VTOL). Most recent works carried out the UAVs' rotation parametrization using Euler angles and a quaternion. Those UAVs suffer from singularities and ambiguities. A geometric control is generally used to deal with those problems. Exponential coordinate in the geometric control maps R3 into SO(3). This paper presented a fuzzy logic controller on SO(3) to control the attitude of the quadrotor. The input of the fuzzy logic controller is the angular velocity (ω) and exponential coordinate error of rotation (ζ), while the output is torque (τ). The error function in this controller is a rotation matrix on SO(3). This proposed controller can control the attitude of the quadrotor based on the expected attitude for maneuvers both on one axis and all axis with a steady-state error of about 0.02 rad.

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Section: Introductionmentioning

confidence: 99%

Attitude Control of a Quadrotor with Fuzzy Logic Controller on SO(3)

Ginting¹,

Doo

Pollo

et al. 2022

Journal of Robotics and Control

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“…The fuzzy controller reduces the chattering effect of SMC. Chen et al [6] discuss tracking control strategy due to internal and external disturbance. These disturbance are handled in two parts: a position controller using a robust SMC and an attitude controller using an adaptive controller with disturbance observer.…”

Section: Introductionmentioning

confidence: 99%

Super-Twisting Sliding Mode Control with Adaptive Gain of Quadrotor with Rigid Manipulator

Anuar

Plestan

Chriette

et al. 2022

2022 16th International Workshop on Variable Structure Systems (VSS)

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This paper presents the control of an aerial manipulator composed of a quadrotor and a manipulator with two degrees of freedom (2 DOF). There is a strong physical coupling between the dynamics of the UAV and the manipulator arm. This coupling along with external perturbations (e.g. wind gusts), considerably affects the stability of the drone's motion in flight which, consequently, affects the desired accuracy of the end effector with respect to its final task. The solution presented here is based on super-twisting sliding mode control with adaptive gain. It is a continuation of previous study on sliding mode control with adaptive gain [1]. The effectiveness of the controller and its robustness against perturbations are verified and analyzed using numerical simulation.

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“…The strategy make use both an extended state observer and a dynamic centre of mass disturbance compensator for disturbance observation. Chen et al [21] discuss tracking control strategy due to internal and external disturbance. These disturbance are handled in two parts.…”

Section: Introductionmentioning

confidence: 99%

Sliding Mode Control with Adaptive Gain of Quadrotor with Rigid Manipulator

Anuar

Plestan

Chriette

et al. 2021

2021 20th International Conference on Advanced Robotics (ICAR)

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Robust Control for Unmanned Aerial Manipulator Under Disturbances

Cited by 20 publications

References 27 publications

Attitude Control of a Quadrotor with Fuzzy Logic Controller on SO(3)

Attitude Control of a Quadrotor with Fuzzy Logic Controller on SO(3)

Super-Twisting Sliding Mode Control with Adaptive Gain of Quadrotor with Rigid Manipulator

Sliding Mode Control with Adaptive Gain of Quadrotor with Rigid Manipulator

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