Add to ORKGTo damp the oscillations in a power system, a new intelligent controller is proposed. This controller is an online trained wavelet neural network controller (OTWNNC) in which adaptive learning rates derived by the Lyapunov stability are employed to guarantee the convergence of the proposed controller. During the online control process, the identification of system is not necessary, because of learning ability of the proposed controller. One of the proposed controller features is robustness to different operating conditions and disturbances. Moreover, the Prony method is used to obtain the exponential damping of power system oscillations in this paper. The test power system is a two-area four-machine system power. The simulation results show...
This paper investigates a renewable energy resource’s application to the Load-Frequency Control of i...
In this paper, the power system with an excitation controller is represented as a class of large-sca...
Presently, among the global ocean energy technologies, the most conventional one is the wave energy ...
[[abstract]]Purpose – A chaotic system is a nonlinear deterministic system that displays complex, no...
In this paper the use of artificial neural network in power system stability is studied. A predictiv...
[[abstract]]In this paper, an adaptive fuzzy wavelet neural network control (AFWNNC) system, which i...
Abstract: This paper investigates the possibility of classifying power system dynamics events using ...
[[abstract]]In this paper, a robust wavelet-based adaptive neural control (RWANC) with a PI type lea...
This dissertation includes three papers on power system stabilization using neural network based con...
In this paper, the power system with an excitation controller is represented as a class of large-sca...
Abstract: A novel approach for designing and realizing a wavelet basis function network learning con...
In this paper the use of artificial neural network in power system stability is studied. A predictiv...
[[abstract]]A Lyapunov-based adaptive neural network unified power flow controller (UPFC) is develop...
[[abstract]]A Lyapunov-based recurrent neural networks unified power flow controller (UPFC) is devel...
In this paper, an intelligent sliding-mode speed controller for achieving favorable decoupling contr...
This paper investigates a renewable energy resource’s application to the Load-Frequency Control of i...
In this paper, the power system with an excitation controller is represented as a class of large-sca...
Presently, among the global ocean energy technologies, the most conventional one is the wave energy ...
[[abstract]]Purpose – A chaotic system is a nonlinear deterministic system that displays complex, no...
In this paper the use of artificial neural network in power system stability is studied. A predictiv...
[[abstract]]In this paper, an adaptive fuzzy wavelet neural network control (AFWNNC) system, which i...
Abstract: This paper investigates the possibility of classifying power system dynamics events using ...
[[abstract]]In this paper, a robust wavelet-based adaptive neural control (RWANC) with a PI type lea...
This dissertation includes three papers on power system stabilization using neural network based con...
In this paper, the power system with an excitation controller is represented as a class of large-sca...
Abstract: A novel approach for designing and realizing a wavelet basis function network learning con...
In this paper the use of artificial neural network in power system stability is studied. A predictiv...
[[abstract]]A Lyapunov-based adaptive neural network unified power flow controller (UPFC) is develop...
[[abstract]]A Lyapunov-based recurrent neural networks unified power flow controller (UPFC) is devel...
In this paper, an intelligent sliding-mode speed controller for achieving favorable decoupling contr...
This paper investigates a renewable energy resource’s application to the Load-Frequency Control of i...
In this paper, the power system with an excitation controller is represented as a class of large-sca...
Presently, among the global ocean energy technologies, the most conventional one is the wave energy ...