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http://dx.doi.org/10.5139/IJASS.2012.13.3.369

A Novel Nonlinear Robust Guidance Law Design Based On SDRE Technique  

Moosapour, Seyyed Sajjad (Faculty of Electrical and Computer Engineering, University of Tabriz)
Alizadeh, Ghasem (Faculty of Electrical and Computer Engineering, University of Tabriz)
Khanmohammadi, Sohrab (Faculty of Electrical and Computer Engineering, University of Tabriz)
Moosapour, Seyyed Hamzeh (Faculty of Electrical and Computer Engineering, University of Tabriz)
Publication Information
International Journal of Aeronautical and Space Sciences / v.13, no.3, 2012 , pp. 369-376 More about this Journal
Abstract
A nonlinear robust guidance law is designed for missiles against a maneuvering target by incorporating sliding-mode and optimal control theories based on the state dependent Riccati equation (SDRE) to achieve robustness against target accelerations. The guidance law is derived based on three-dimensional nonlinear engagement kinematics and its robustness against disturbances is proved by the second method of Lyapunov. A new switching surface is considered in the sliding-mode control design. The proposed guidance law requires the maximum value of the target maneuver, and therefore opposed to the conventional augmented proportional navigation guidance (APNG) law, complete information about the target maneuver is not necessary, and hence it is simple to implement in practical applications. Considering different types of target maneuvers, several scenario simulations are performed. Simulation results confirm that the proposed guidance law has much better robustness, faster convergence, and smaller final time and control effort in comparison to the sliding-mode guidance (SMG) and APNG laws.
Keywords
guidance; optimal control; robustness; sliding-mode;
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