The current uncertainty about oil and gas prices and their resources, and future energy concerns, smart grids lead to further development. In this paper, a two way communication-based distributed control for voltage regulation in smart grid is proposed. Moreover, 16-bus distribution feeders system is modeled by real time simulation in MATLAB/Simulink in order to evaluate the effectiveness of the proposed scheme. The results are evidence for capability of proposed system to regulate the voltage in smart distribution feeders
The large-scale deployment of the Smart Grid paradigm will support the evolution of conventional ele...
In this paper, an intelligent distributed multi-agent system (MAS) is proposed for the implementatio...
This paper explores the effect of a distributed control system for the charging of plug-in hybrid el...
The current uncertainty about oil and gas prices and their resources, and future energy concerns, sm...
The large-scale deployment of the Smart Grid paradigm will support the evolution of conventional ele...
The widespread use of distributed generation (DG), which is installed in medium-voltage distribution...
The developments of distributed generators (DGs) and electric vehicles (EVs) are dramatical due to t...
This paper presents a voltage control method using multiple distributed generators (DGs) based on a ...
In recent years, with increasing the penetration of renewable-based distributed generation (DGs), vo...
Our interconnected electric power system is presently facing many challenges that it was not origina...
The expected impact of distributed generation (DG) into Smart Grid represents a great challenge of t...
As the penetration of distributed energy resources (DERs) increases significantly in the distributio...
The research activities carried out for the present PhD dissertation concerns the increasingly evide...
The integration of uncontrolled distributed generation (DG), like photovoltaic and wind turbines, an...
This article deals with the influence of distributed generation (DG) on distribution line losses wit...
The large-scale deployment of the Smart Grid paradigm will support the evolution of conventional ele...
In this paper, an intelligent distributed multi-agent system (MAS) is proposed for the implementatio...
This paper explores the effect of a distributed control system for the charging of plug-in hybrid el...
The current uncertainty about oil and gas prices and their resources, and future energy concerns, sm...
The large-scale deployment of the Smart Grid paradigm will support the evolution of conventional ele...
The widespread use of distributed generation (DG), which is installed in medium-voltage distribution...
The developments of distributed generators (DGs) and electric vehicles (EVs) are dramatical due to t...
This paper presents a voltage control method using multiple distributed generators (DGs) based on a ...
In recent years, with increasing the penetration of renewable-based distributed generation (DGs), vo...
Our interconnected electric power system is presently facing many challenges that it was not origina...
The expected impact of distributed generation (DG) into Smart Grid represents a great challenge of t...
As the penetration of distributed energy resources (DERs) increases significantly in the distributio...
The research activities carried out for the present PhD dissertation concerns the increasingly evide...
The integration of uncontrolled distributed generation (DG), like photovoltaic and wind turbines, an...
This article deals with the influence of distributed generation (DG) on distribution line losses wit...
The large-scale deployment of the Smart Grid paradigm will support the evolution of conventional ele...
In this paper, an intelligent distributed multi-agent system (MAS) is proposed for the implementatio...
This paper explores the effect of a distributed control system for the charging of plug-in hybrid el...