论文信息 - Nonlinear Maneuver Regulation for Reduced-G Atmospheric Flight

Nonlinear Maneuver Regulation for Reduced-G Atmospheric Flight

A maneuver regulation controller for reduced gravity vertical flight is developed using intuition based on an internal model of the quadratically increasing (in time) aerodynamic drag. This leads to a controller employing a chain of three integrators. Since the drag “disturbance” actually results from a nonlinear feedback, the usual linear stability analysis is insufficient. The proper framework is found using a transverse coordinate system about the desired maneuver, where one may show that the maneuver is in fact exponentially attractive. Experimental performance of the resulting control system is also presented.

John Hauser | Eric Feron | Juan-Pablo Afman

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