Adaptive neural model-based fault tolerant control for multi-variable processes
Engineering Applications of Artificial Intelligence
Neurocontrol: A literature survey
Mathematical and Computer Modelling: An International Journal
Short Communication: On balancing a cart-pole system using T--S fuzzy model
Fuzzy Sets and Systems
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An iterative constrained inversion technique is used to find the control inputs to the plant. That is, rather than training a controller network and placing this network directly in the feedback or feedforward paths, the forward model of the plant is learned, and iterative inversion is performed on line to generate control commands. The control approach allows the controllers to respond online to changes in the plant dynamics. This approach also attempts to avoid the difficulty of analysis introduced by most current neural network controllers, which place the highly nonlinear neural network directly in the feedback path. A neural network-based model reference adaptive controller is also proposed for systems having significant dynamics between the control inputs and the observed (or desired) outputs and is demonstrated on a simple linear control system. These results are interpreted in terms of the need for a dither signal for on-line identification of dynamic systems