Open AccessMIMO Sliding Mode Control for a Tailless Fighter Aircraft, An Alternative to Reconfigurable Architectures
Author(s) -
S. R. Wells,
Ronald A. Hess
Publication year - 2002
Publication title -
aiaa guidance, navigation, and control conference and exhibit
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2002-4650
Subject(s) - mimo , mode (computer interface) , sliding mode control , computer science , control (management) , control engineering , control theory (sociology) , aeronautics , aerospace engineering , engineering , artificial intelligence , telecommunications , physics , human–computer interaction , nonlinear system , channel (broadcasting) , quantum mechanics
A frequency-domain procedure for the design of sliding mode controllers for multi-input, multi-output (MIMO) systems is presented. The methodology accommodates the effects of parasitic dynamics such as those introduced by unmodeled actuators through the introduction of multiple asymptotic observers and model reference hedging. The design procedure includes a frequency domain approach to specify the sliding manifold, the observer eigenvalues, and the hedge model. The procedure is applied to the development of a flight control system for a linear model of the Innovative Control Effector (ICE) fighter aircraft. The stability and performance robustness of the resulting design is demonstrated through the introduction of significant degradation in the control effector actuators and variation in vehicle dynamics.
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