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    Observer based Appointed-finite-time Nonsingular Sliding Mode based Disturbance Attenuation Control for Quadrotor UAV*

    Observer based Appointed-finite-time Nonsingular Sliding Mode based Disturbance Attenuation Control for Quadrotor UAV*


    This work investigates the appointed-finite-time trajectory tracking control problem for quadrotor unmanned aerial vehicles subject to external disturbances. More specifically, two nonsingular terminal sliding mode manifolds are first designed so that the singularity problem is settled. Furthermore, the appointed-finite-time stability of the proposed manifolds is proved by rigorous Lyapunov theory. Then, two novel sliding mode based appointed-finite-time controllers are developed to realize the trajectory tracking objective. The undesired chattering is alleviated by discontinuous control structure. Finally, numerical simulation results are presented to illustrate that the quadrotor can successfully accomplish the tracking task by utilizing the proposed controllers.

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    Title :

    Observer based Appointed-finite-time Nonsingular Sliding Mode based Disturbance Attenuation Control for Quadrotor UAV*

    Contributors:
    Gong, Wenquan (author) / Li, Bo (author) / Xiong, Hang (author) / Yang, Yongsheng (author) / Xiao, Bing (author)
    Published in:

    2020 International Conference on Unmanned Aircraft Systems (ICUAS) ; 1338-1343

    Publication date :

    2020-09-01

    Size :

    641250 byte

    ISBN :

    978-1-7281-4278-4

    ISSN :

    2575-7296

    DOI :

    https://doi.org/10.1109/ICUAS48674.2020.9214016

    Type of media :

    Conference paper

    Type of material :

    Electronic Resource

    Language :

    English

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