This paper presents a decentralized algorithm for application in the smart grids self-healing problem, at the distribution level. The algorithm implementation is made using a reactive multi-agent system, which models the electrical grid in terms of autonomous agents which perform the algorithm operations in a distributed and parallel way. To validate this algorithm, two distribution network test models are used: a 15 bus model and a 33 bus model — standardized by IEEE. The results are obtained by means of computational simulation and shown in this paper, to each one of the network models. The results show that the proposed approach is able to recover all the nodes of the grid, within the simulation conditions. Moreover, it is seen that the ...
AbstractThis paper proposes a multi-agent approach to decentralized power system restoration for dis...
This paper presents a decentralized algorithm for application in the smart grids self-healing proble...
It is common the occurence of permanent faults in power distribution systems. In a typical radial po...
Smart grid technology has gained much consideration recently to make use of intelligent control in t...
With the advent of smart grids and the higher level of requirement for the quality of supply, restor...
This paper is trying review different techniques used for self healing of the smart grid network. A ...
The ever-increasing requirement for reliability and quality of supply suggests to enable the self-he...
AbstractA hierarchical framework incorporated with multi-agents is proposed for enabling the self-he...
A lot of work has been done to implement self healing property to smart grids. The principle behind ...
In this paper author is trying to review many techniques used for self-healing in smart grid. In his...
In this paper author is trying to review many techniques used for self-healing in smart grid. In his...
Self - healing is the important aspect of the nature in which any system recovers it to the normal l...
Reliability of power distribution systems is of very crucial concern due to cases of mass power outa...
Self-healing is the important aspect of the nature in which any system recoversitto the normal level...
Self-healing is the important aspect of the nature in which any system recoversitto the normal level...
AbstractThis paper proposes a multi-agent approach to decentralized power system restoration for dis...
This paper presents a decentralized algorithm for application in the smart grids self-healing proble...
It is common the occurence of permanent faults in power distribution systems. In a typical radial po...
Smart grid technology has gained much consideration recently to make use of intelligent control in t...
With the advent of smart grids and the higher level of requirement for the quality of supply, restor...
This paper is trying review different techniques used for self healing of the smart grid network. A ...
The ever-increasing requirement for reliability and quality of supply suggests to enable the self-he...
AbstractA hierarchical framework incorporated with multi-agents is proposed for enabling the self-he...
A lot of work has been done to implement self healing property to smart grids. The principle behind ...
In this paper author is trying to review many techniques used for self-healing in smart grid. In his...
In this paper author is trying to review many techniques used for self-healing in smart grid. In his...
Self - healing is the important aspect of the nature in which any system recovers it to the normal l...
Reliability of power distribution systems is of very crucial concern due to cases of mass power outa...
Self-healing is the important aspect of the nature in which any system recoversitto the normal level...
Self-healing is the important aspect of the nature in which any system recoversitto the normal level...
AbstractThis paper proposes a multi-agent approach to decentralized power system restoration for dis...
This paper presents a decentralized algorithm for application in the smart grids self-healing proble...
It is common the occurence of permanent faults in power distribution systems. In a typical radial po...