These three papers cover the overall methodology for the identification and localization of faults that occur in main transmission and distribution lines when broadband over power lines (BPL) networks are deployed across the transmission and distribution power grids, respectively. In fact, this fault case is the only one that cannot be handled by the combined operation of Topology Identification Methodology (TIM) and Instability Identification Methodology (FIIM). After the phase of identification of main distribution line faults, which is presented in this paper, the main line fault localization methodology (MLFLM) is applied in order to localize the faults in overhead medium-voltage BPL (OV MV BPL) networks.The main contribution of this pa...
The rapid growth of the electric power system has in recent decades resulted in an increase of the n...
This thesis presents an investigation into impedance based fault location methods which directly use...
Short-circuit faults are inevitable on transmission and distribution networks. Dispatching the maint...
Enriching the fault identification methodology of the first paper, this second paper investigates th...
Since the main distribution line faults can be securely identified as outlined in the first and seco...
This paper assesses the performance of the main line fault localization methodology (MLFLM) when its...
This companion paper of [1] focuses on the prediction of various faults and instabilities that may o...
This first paper considers the identification of the structure of overhead high-voltage broadband ov...
In [1], the theoretical framework for the interoperability of DHM, iSHM, mSHM, the definition proced...
© Medwell Journals, 2017. The study proposes the algorithm to determine the locations of phase-to-ph...
Due to the significant volatility of Broadband over Power Lines (BPL) networks regarding their circu...
Electric power transmission lines are used for delivering electricity to consumers at their homes, o...
Electrical faults in the distribution network can lead to interruptions in the power supply of the c...
Until now, the neural network identification methodology for the branch number identification (NNIM-...
Fault location is very important for distribution systems, and quickly identifying the fault and res...
The rapid growth of the electric power system has in recent decades resulted in an increase of the n...
This thesis presents an investigation into impedance based fault location methods which directly use...
Short-circuit faults are inevitable on transmission and distribution networks. Dispatching the maint...
Enriching the fault identification methodology of the first paper, this second paper investigates th...
Since the main distribution line faults can be securely identified as outlined in the first and seco...
This paper assesses the performance of the main line fault localization methodology (MLFLM) when its...
This companion paper of [1] focuses on the prediction of various faults and instabilities that may o...
This first paper considers the identification of the structure of overhead high-voltage broadband ov...
In [1], the theoretical framework for the interoperability of DHM, iSHM, mSHM, the definition proced...
© Medwell Journals, 2017. The study proposes the algorithm to determine the locations of phase-to-ph...
Due to the significant volatility of Broadband over Power Lines (BPL) networks regarding their circu...
Electric power transmission lines are used for delivering electricity to consumers at their homes, o...
Electrical faults in the distribution network can lead to interruptions in the power supply of the c...
Until now, the neural network identification methodology for the branch number identification (NNIM-...
Fault location is very important for distribution systems, and quickly identifying the fault and res...
The rapid growth of the electric power system has in recent decades resulted in an increase of the n...
This thesis presents an investigation into impedance based fault location methods which directly use...
Short-circuit faults are inevitable on transmission and distribution networks. Dispatching the maint...