Add to ORKGThis paper first presents a general overview of Adaptive Critic Designs (ACDs) and their existing control applications. It describes the importance of the right choice of utility functions for the development of critic networks and their convergence to the cost-to-go function J. A closer look into the step by step derivation of a utility function for the design of an ACD nonlinear optimal neurocontroller to replace/augment the conventional controllers, the automatic voltage regulator and governor, in a power system consisting of a generator connected to the power grid is described and some results are presented
This paper presents the design of an optimal neurocontroller that replaces the conventional automati...
The design and real-time implementation of derivatives adaptive critic based neurocontrollers that r...
This paper presents the design of a neuro-controller for a turbogenerator using a novel technique ba...
The design of nonlinear optimal neurocontrollers based on the Adaptive Critic Designs (ACDs) family ...
The increasing complexity of the modern power grid highlights the need for advanced modeling and con...
We discuss a variety of adaptive critic designs (ACDs) for neurocontrol. These are suitable for lear...
A novel nonlinear optimal neurocontroller for a static compensator (STATCOM) connected to a power sy...
We discuss a variety of Adaptive Critic Designs (ACDs) for neurocontrol. These are suitable for lear...
Turbogenerators are nonlinear time varying systems. This paper presents the design of a neurocontrol...
A novel nonlinear optimal neurocontroller for a static compensator (STATCOM) connected to a power sy...
For the first time, different adaptive critic designs (ACDs), a conventional proportional integral d...
A novel nonlinear optimal controller for a static compensator (STATCOM) connected to a power system,...
For the first time, different adaptive critic designs (ACDs), a conventional proportional integral d...
For the first time, different adaptive critic designs (ACDs), a conventional proportional integral d...
This paper presents the design of an optimal neurocontroller that replaces the conventional automati...
This paper presents the design of an optimal neurocontroller that replaces the conventional automati...
The design and real-time implementation of derivatives adaptive critic based neurocontrollers that r...
This paper presents the design of a neuro-controller for a turbogenerator using a novel technique ba...
The design of nonlinear optimal neurocontrollers based on the Adaptive Critic Designs (ACDs) family ...
The increasing complexity of the modern power grid highlights the need for advanced modeling and con...
We discuss a variety of adaptive critic designs (ACDs) for neurocontrol. These are suitable for lear...
A novel nonlinear optimal neurocontroller for a static compensator (STATCOM) connected to a power sy...
We discuss a variety of Adaptive Critic Designs (ACDs) for neurocontrol. These are suitable for lear...
Turbogenerators are nonlinear time varying systems. This paper presents the design of a neurocontrol...
A novel nonlinear optimal neurocontroller for a static compensator (STATCOM) connected to a power sy...
For the first time, different adaptive critic designs (ACDs), a conventional proportional integral d...
A novel nonlinear optimal controller for a static compensator (STATCOM) connected to a power system,...
For the first time, different adaptive critic designs (ACDs), a conventional proportional integral d...
For the first time, different adaptive critic designs (ACDs), a conventional proportional integral d...
This paper presents the design of an optimal neurocontroller that replaces the conventional automati...
This paper presents the design of an optimal neurocontroller that replaces the conventional automati...
The design and real-time implementation of derivatives adaptive critic based neurocontrollers that r...
This paper presents the design of a neuro-controller for a turbogenerator using a novel technique ba...