Stability analysis for constrained principal axis slew maneuvers | Zendy

Hans Seywald | Zendy; Toby Anthony | Zendy; Kyong B. Lim | Zendy

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Stability analysis for constrained principal axis slew maneuvers

Author(s) -

Hans Seywald,

Toby Anthony,

Kyong B. Lim

Publication year - 1997

Publication title -

38th aerospace sciences meeting and exhibit

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.1997-108

Subject(s) - control theory (sociology) , computer science , stability (learning theory) , principal component analysis , artificial intelligence , control (management) , machine learning

This paper addresses the problem of reorienting a rigid spacecraft from arbitrary initial conditions to prescribed final conditions with zero angular velocity. The control law analyzed is based on quaternion feedback and leaves the user to choose two gains as functions of position, angular rate, and time. For arbitrary initial states, conditions on the controller gains are identified that guarantee global asymptotic stability. For the special case of rest-to-rest reorientations, the control law reduces to earlier results involving a principal axis rotation. The paper also addresses slew rate constraints, both, in terms of the two and infinity norms.

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