Adaptive Neural Network Controller Design for Missile Systems with Unmodeled Dynamics

Adaptive Neural Network Controller Design for Missile Systems with Unmodeled Dynamics

An adaptive inverse compensator design method was proposed for a class of nonlinear systems with input ummodeled dynamics based on RBF neural networks. The compensator was designed using two neural networks, one to estimate the input unmodeled dynamics and another to provide adaptive inverse compens...

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Bibliographische Detailangaben
Hauptverfasser: Jin, Y.Q., Shi, X.J., Hu, Y.A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Adaptive control
adaptive inverse
Adaptive systems
Backstepping
Control systems
Design methodology
Input unmodeled dynamics
Missiles
Neural networks
Nonlinear dynamical systems
Nonlinear systems
Programmable control
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Zusammenfassung:An adaptive inverse compensator design method was proposed for a class of nonlinear systems with input ummodeled dynamics based on RBF neural networks. The compensator was designed using two neural networks, one to estimate the input unmodeled dynamics and another to provide adaptive inverse compensation to the input unmodeled dynamics. The method relaxes some rigorous demands to unmodeled dynamics such as relative degree zero, satisfying the small gain assumption and so on. The controller was designed using backstepping control techniques. Lyapunov theory was used to derive the tuning laws for the weight vectors of the neural networks and proved that the close-loop system is gradually stable. The proposed method is applied to design the missile control systems with input unmodeled dynamics in pitch channel. The simulation results show the effectiveness of the proposed control method
DOI:10.1109/CESA.2006.4281759