Receding horizon control of an F-16 aircraft: A comparative study
Author:
Publisher
Elsevier BV
Subject
Applied Mathematics,Electrical and Electronic Engineering,Computer Science Applications,Control and Systems Engineering
Reference21 articles.
1. Allgöwer, F., & Zheng, A. Z. (2000). Nonlinear model predictive control: Assessment and future directions for research. Progress in systems and control series. Basel: Birkhäuser Verlag.
2. Bemporad, A., & Morari, M. (1999). Robust model predictive control: A survey. In A. Garulli, A. Tesi, & A. Vicino (Eds.), Robustness in identification and control. Vol. 245, Lecture notes in control and information sciences. Berlin: Springer. (pp. 207–226).
3. Nonlinear receding horizon control of an F-16 aircraft;Bhattacharya;Journal of Guidance, Control, and Dynamics,2002
4. Blet, N., Megías, D., Serrano, J., & de Prada, C. (2002). Nonlinear MPC versus MPC using on-line linearisation—a comparative study. In 15th IFAC world congress. Barcelona, Spain.
5. Blue, P., Güvenç, L., & Odenthal, D. (2001). Large envelope flight control satisfying H∞ robustness and performance specifications. In Proceedings of the American control conference. Arlington, VA.
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