Publisher Copyright: © 2013 IEEE.Restructuring in power systems has resulted in the development of microgrids (MGs) as entities that could be operated in grid-connected or islanded modes while managing the operation of their systems. On the other hand, privatization and integration of independently operated distributed resources in energy systems have caused the introduction of multi-agent structures. In this regard, new operational management methodologies should be employed by the MG operator (MGO) to efficiently operate the system while addressing the distributed nature of multi-agent structures. Accordingly, this paper aims to provide a new algorithm to operate an islanded multi-agent MG utilizing the peer-to-peer (P2P) management conce...
Traditional power systems employ centralized control techniques to manage the entire power network. ...
In this paper, a multi-objective optimization technique is proposed for the planning of a networked ...
Abstract: The microgrid and demand response (DR) are important technologies for future power grids. ...
In this work, a novel agent-based day-ahead power management scheme is proposed for multiple-microgr...
The increasing integration of distributed renewable energy sources and electric vehicles can signifi...
This paper proposes a novel energy management framework by combining proactive and reactive approach...
Publisher Copyright: AuthorPower systems are undergoing significant transformations due to the intro...
The increasing penetration of renewable energy sources (RESs) has led to the proliferation of microg...
Abstract — The issue of controlled and reliable integration of distributed energy resources into mic...
This paper presents an optimal scheduling of plug-in electric vehicles (PEVs) as mobile power source...
This paper proposes a hierarchical optimization method for the energy scheduling of multiple microgr...
Microgrids are becoming one of the main components of future smart grids. Ensuring their optimal and...
One of the most important requirements of microgrid operation is to maintain a constant frequency su...
With the growing population trends, the demand for electricity is accelerating rapidly. The policy p...
A single microgrid can only generate and distribute power within a localized area. Furthermore, in t...
Traditional power systems employ centralized control techniques to manage the entire power network. ...
In this paper, a multi-objective optimization technique is proposed for the planning of a networked ...
Abstract: The microgrid and demand response (DR) are important technologies for future power grids. ...
In this work, a novel agent-based day-ahead power management scheme is proposed for multiple-microgr...
The increasing integration of distributed renewable energy sources and electric vehicles can signifi...
This paper proposes a novel energy management framework by combining proactive and reactive approach...
Publisher Copyright: AuthorPower systems are undergoing significant transformations due to the intro...
The increasing penetration of renewable energy sources (RESs) has led to the proliferation of microg...
Abstract — The issue of controlled and reliable integration of distributed energy resources into mic...
This paper presents an optimal scheduling of plug-in electric vehicles (PEVs) as mobile power source...
This paper proposes a hierarchical optimization method for the energy scheduling of multiple microgr...
Microgrids are becoming one of the main components of future smart grids. Ensuring their optimal and...
One of the most important requirements of microgrid operation is to maintain a constant frequency su...
With the growing population trends, the demand for electricity is accelerating rapidly. The policy p...
A single microgrid can only generate and distribute power within a localized area. Furthermore, in t...
Traditional power systems employ centralized control techniques to manage the entire power network. ...
In this paper, a multi-objective optimization technique is proposed for the planning of a networked ...
Abstract: The microgrid and demand response (DR) are important technologies for future power grids. ...