Title :
Adaptive Feedback Control by Constrained Approximate Dynamic Programming
Author :
Ferrari, Silvia ; Steck, James E. ; Chandramohan, Rajeev
Author_Institution :
Dept. of Mech. Eng., Duke Univ., Durham, NC
Abstract :
A constrained approximate dynamic programming (ADP) approach is presented for designing adaptive neural network (NN) controllers with closed-loop stability and performance guarantees. Prior knowledge of the linearized equations of motion is used to guarantee that the closed-loop system meets performance and stability objectives when the plant operates in a linear parameter-varying (LPV) regime. In the presence of unmodeled dynamics or failures, the NN controller adapts to optimize its performance online, whereas constrained ADP guarantees that the LPV baseline performance is preserved at all times. The effectiveness of an adaptive NN flight controller is demonstrated for simulated control failures, parameter variations, and near-stall dynamics.
Keywords :
adaptive control; approximation theory; closed loop systems; control system synthesis; dynamic programming; feedback; neurocontrollers; stability; adaptive feedback control; adaptive neural network controller design; closed-loop stability; closed-loop system; constrained approximate dynamic programming; linear parameter-varying regime; linearized motion equation; Approximate dynamic programming (ADP); constrained optimization; feedback control; neural networks (NNs); Algorithms; Computer Simulation; Feedback; Models, Theoretical; Neural Networks (Computer); Programming, Linear; Systems Theory;
Journal_Title :
Systems, Man, and Cybernetics, Part B: Cybernetics, IEEE Transactions on
DOI :
10.1109/TSMCB.2008.924140
