Artificial Neural Networks for Control of a Grid-Connected Rectifier/Inverter Under Disturbance, Dynamic and Power Converter Switching Conditions.
Shuhui LiMichael FairbankCameron JohnsonDonald C. WunschEduardo AlonsoJulio L. ProaoPublished in: IEEE Trans. Neural Networks Learn. Syst. (2014)
Keyphrases
- single phase
- power electronics
- pulse width modulation
- output voltage
- artificial neural networks
- control method
- induction motor
- dynamic response
- power quality
- dc dc converter
- input output
- loading conditions
- control algorithm
- power supply
- neural network
- control system
- matlab simulink
- fault identification
- wind turbine
- control strategy
- computational intelligence
- sufficient conditions
- electronic circuits
- dynamic environments
- genetic algorithm
- pid controller
- using artificial neural networks
- grid computing
- neural network controller
- multilayer perceptron
- back propagation
- reactive power
- speed control
- soft computing
- dynamic characteristics
- power grid
- fuzzy control