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arxiv: 2111.01302 · v1 · pith:Y3X72NPZnew · submitted 2021-11-02 · 💻 cs.RO

Differential Flatness and Flatness Inspired Control of Aerial Manipulators based on Lagrangian Reduction

classification 💻 cs.RO
keywords flatnessaerialmanipulatorscontrolflatlagrangianmanipulatorreduction
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This paper shows that the dynamics of a general class of aerial manipulators, consist of an underactuated multi-rotor base with an arbitrary k-linked articulated manipulator, are differentially flat. Methods of Lagrangian Reduction under broken symmetries produce reduced equations of motion whose key variables: center-of-mass linear momentum, vehicle yaw angle, and manipulator relative joint angles become the flat outputs. Utilizing flatness theory and a second-order dynamic extension of the thrust input, we transform the mechanics of aerial manipulators to their equivalent trivial form with a valid relative degree. Using this flatness transformation, a quadratic programming-based controller is proposed within a Control Lyapunov Function (CLF-QP) framework, and its performance is verified in simulation.

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