Energy balance in electric power systems is continuously disrupted by constant demand changes due to customers\u27 switching in and out, or loss of generating units. Load frequency control (LFC) is very essential for interconnected power systems in order to maintain the energy balance which is assessed through the Area Control Error, a signal that is made up of deviations from their nominal values of the system frequency and power area interchanges. Each balancing authority is responsible for its own energy balance in accordance with North American Electric Reliability Corporation (NERC) standards.;This thesis presents a novel approach to the LFC problem. An adaptive intelligent controller, or agent, changes the gains of a proportional-inte...
The loading of a power system is never constant. The actual load change of the power system cannot b...
This paper presents an online two-stage Q-learning based multi-agent (MA) controller for load freque...
The stability control of nominal frequency and terminal voltage in an interconnected power system (I...
Energy balance in electric power systems is continuously disrupted by constant demand changes due to...
In restructured electric power systems, a number of generation companies and independent power produ...
Advances in the demand response for energy imbalance management (EIM) ancillary services can change ...
The electric grid is undergoing a major transition from fossil fuel-based power generation to renewa...
The load–frequency control (LFC) problem has been one of the major subjects in a power system. In\ud...
In this paper, we explore how a computational approach to learning from interactions, called reinfor...
Load Frequency Control (LFC) is a mechanism by which power generation and power demand are balanced....
Abstract: Load frequency control or automatic generation control is one of the main operations that ...
As power grids transition towards increased reliance on renewable generation, energy storage and dem...
In this paper, an adaptive type-2 fuzzy controller is proposed to control the load frequency of a tw...
The rise of microgrid-based architectures is heavily modifying the energy control landscape in distr...
This paper presents the design and implementation of a learning controller for the Automatic Generat...
The loading of a power system is never constant. The actual load change of the power system cannot b...
This paper presents an online two-stage Q-learning based multi-agent (MA) controller for load freque...
The stability control of nominal frequency and terminal voltage in an interconnected power system (I...
Energy balance in electric power systems is continuously disrupted by constant demand changes due to...
In restructured electric power systems, a number of generation companies and independent power produ...
Advances in the demand response for energy imbalance management (EIM) ancillary services can change ...
The electric grid is undergoing a major transition from fossil fuel-based power generation to renewa...
The load–frequency control (LFC) problem has been one of the major subjects in a power system. In\ud...
In this paper, we explore how a computational approach to learning from interactions, called reinfor...
Load Frequency Control (LFC) is a mechanism by which power generation and power demand are balanced....
Abstract: Load frequency control or automatic generation control is one of the main operations that ...
As power grids transition towards increased reliance on renewable generation, energy storage and dem...
In this paper, an adaptive type-2 fuzzy controller is proposed to control the load frequency of a tw...
The rise of microgrid-based architectures is heavily modifying the energy control landscape in distr...
This paper presents the design and implementation of a learning controller for the Automatic Generat...
The loading of a power system is never constant. The actual load change of the power system cannot b...
This paper presents an online two-stage Q-learning based multi-agent (MA) controller for load freque...
The stability control of nominal frequency and terminal voltage in an interconnected power system (I...