论文信息 - Trajectory optimization and the control of a re-entry vehicle in TAEM phase

Trajectory optimization and the control of a re-entry vehicle in TAEM phase

This paper investigates the optimal trajectory and the feedback linearization control of a re-entry vehicle during TAEM (terminal area energy management) phase. First, an optimization algorithm with dynamic pressure as the cost function is used to obtain the optimal trajectory in TAEM. This optimal trajectory is considered the reference for ensuring a stable flight path of the re-entry vehicle. The control inputs are the angle of attack and bank angle, which determine the total energy and safety of the re-entry vehicle. Second, feedback linearization is used to design a tracking law in the TAEM phase. This paper validates the optimal solution as the reference trajectory with HAC (heading alignment cylinder) and the tracking performance of the re-entry vehicle onto the reference trajectory by feedback linearization.

Dae-Woo Lee | Jong-Hun Kim | Kyeum-Rae Cho | Jo-Ha Baek | Jang-Sik Yang

[1] Amitabh Saraf,et al. Design and Evaluation of an Acceleration Guidance Algorithm for Entry , 2003 .

[2] Craig A. Kluever,et al. Terminal Area Energy Management Trajectory Planning for an Unpowered Reusable Launch Vehicle , 2004 .

[3] Gregg H. Barton,et al. FOR ONBOARD GENERATION OF TAEM TRAJECTORIES FOR AUTONOMOUS RLVs , 2002 .

[4] Weiping Li,et al. Applied Nonlinear Control , 1991 .

[5] Kyoung-Ho Kim,et al. Conceptual Design of a Rocket-Powered Plane And Its Use For Space Tourism , 2005 .

[6] J. W. Kraemer,et al. Shuttle Orbiter Guidance System for the Terminal Flight Phase , 1975 .

[7] N Pamadi Bandu,et al. Aerodynamic Characteristics and Development of the Aerodynamic Database of the X-34 Reusable Launch Vehicle , 1999 .

[8] Thomas E. Moore,et al. Space shuttle entry terminal area energy management , 1991 .