Phugoid peaks trajectory for hypersonic glide vehicles

摘要

A new apparatus and method for determining trajectories for hypersonic glide vehicles significantly reduces integrated, or total, heat load, with little reduction in time to distance and maximum range. The new approach identifies a trajectory having large phugoid oscillations and plotting a glide trajectory along the peaks of the phugoid oscillations. The glide trajectory is determined by calculating a first altitude that results in a maximum lift to drag ratio trajectory having damped or small phugoid oscillations, then calculating a different altitude that results in larger phugoid oscillations, and higher phugoid peaks, and finally plotting a trajectory from the first altitude that follows the peaks of the higher phugoid oscillation trajectory. The thus calculated trajectory can be input into a glide vehicle guidance system for controlling the trajectory of the glide vehicle from a point where it reaches the first altitude.

主权项

1. A method for determining a trajectory for a glide vehicle having a specific energy, comprising the steps of:
(a) calculating, for the specific energy of the glide vehicle, a first altitude for a first trajectory that results in phugoid oscillations when gliding at a maximum lift to drag ratio angle of attack; (b) starting from a different altitude from the first altitude, for the same starting specific energy, calculating a second trajectory that results in larger phugoid oscillations, having top peak points, when gliding at a maximum lift to drag ratio angle of attack; (c) determining flight conditions for the top peak points of the second trajectory, the flight conditions corresponding to the trajectory where a second time derivative of a flight path angle is zero and goes from negative to positive; (d) generating a trajectory tracking those top peak points starting from the first altitude; and (e) controlling a flight surfaces actuator using calculated control signals corresponding to the generated trajectory.