In this article, a robust singularity-free fixed-time satellite attitude control in a geometric control framework is proposed. The satellite attitude is represented by the rotation matrices defined on the special orthogonal matrix group $\text {SO}(3)$ to achieve unique, global, and kinematic singularity-free attitude representation. A nonsingular fixed-time sliding manifold for the attitude control system evolving on the Lie group $\text {SO}(3)\times \mathbb {R}^{3}$ is proposed. A complete mathematical analysis is carried out to prove and establish that the proposed sliding manifold is a Lie subgroup of $\text {SO}(3)\times \mathbb {R}^{3}$. Along this manifold, the reduced-order dynamics is almost globally fixed-time attractive to a residual set containing the stable equilibrium point. Based on the proposed sliding manifold, a nonsingular geometric fixed-time sliding mode control (NGFTSMC) law is proposed for the satellite attitude control in the presence of external disturbance torques. It is proved through five propositions that the NGFTSMC facilitates an attitude maneuver on the phase space $\text {SO}(3)\times \mathbb {R}^{3}$, excluding a set of measure zero. This guarantees almost global, unwinding-free, and singularity-free closed-loop attitude dynamics. Simulation results are presented and compared with a quaternion-based fixed-time sliding mode control to show superiority of the NGFTSMC in terms of the time of convergence, unwinding, and control effort.


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    Titel :

    Almost Global and Singularity-Free Fixed-Time Sliding Mode Satellite Attitude Control: A Geometric Control Framework


    Beteiligte:


    Erscheinungsdatum :

    01.02.2025


    Format / Umfang :

    972677 byte




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Elektronische Ressource


    Sprache :

    Englisch