论文信息 - Adaptive Integrated Guidance and Control Based on Backstepping for the Landing of Reusable Launch Vehicles

Adaptive Integrated Guidance and Control Based on Backstepping for the Landing of Reusable Launch Vehicles

Abstract Based on the idea of reference-trajectory guidance, an integrated guidance and control (IGC) design approach is proposed for the landing of a reusable launch vehicle (RLV) by using backstepping and adaptive control. The nonlinear IGC model for the landing phase is formulated, and in order to handle the influence of the nonlinearity term, an adaptation law is introduced into the backstepping scheme to design an IGC law that can make flight path angle robustly track its reference value and keep the heading angle near zero (heading to the runway). Comparing with the existing guidance and control methods, the IGC law designed in this paper can guarantee the stability of the overall system that composed of guidance and control systems, and the law also has robustness with respect to uncertainties. The numerical simulation confirms the effectiveness of the proposed design approach.

Han Yan | Yingzi He

[1] Bernard Friedland,et al. Design of an integrated strapdown guidance and control system for a tactical missile , 1983 .

[2] David B. Doman,et al. Integrated Adaptive Guidance and Control for Re-Entry Vehicles with Flight-Test Results , 2004 .

[3] Fang Wang,et al. Quasi-continuous high-order sliding mode controller design for reusable launch vehicles in reentry phase , 2013 .

[4] Q. Zong,et al. Optimal guidance for reentry vehicles based on indirect Legendre pseudospectral method , 2011 .

[5] Eduardo Sontag. Smooth stabilization implies coprime factorization , 1989, IEEE Transactions on Automatic Control.

[6] Steven G. Tragesser,et al. Autolanding Trajectory Design for the X-34 , 1999 .

[7] Jie Wang,et al. Nonlinear robust control for reusable launch vehicles in reentry phase based on time-varying high order sliding mode , 2013, J. Frankl. Inst..

[8] Christina T. Chomel. Design of a robust integrated guidance and control algorithm for the landing of an autonomous reusable launch vehicle , 1998 .

[9] Guangren Duan,et al. Adaptive block dynamic surface control for integrated missile guidance and autopilot , 2013 .

[10] Haibo Ji,et al. Integrated guidance and control for dual-control missiles based on small-gain theorem , 2012, Autom..