AbstractPower distribution utilities often use impedance-based methods for locating faults along their feeders. For feeders with laterals, these techniques may identify different possible locations for the same fault. This leads to higher costs and longer restoration time. In order to improve impedance-based methods, faulted-circuit indicators (FCI) can be allocated along the feeder to reduce, or even eliminate, the uncertainty about the fault location. This paper proposes a technique for optimally allocating a given number of FCIs along distribution feeders using the Chu–Beasley genetic algorithm to solve the optimization problem. The proposed objective functions measure the number of locations that are suspected to be the actual fault loc...
Rapid location of faults in electrical distribution system is very critical for effective and effici...
The conventional approach for estimating the locations of transmission line faults has been to measu...
Power distribution systems (PDS) are increasingly complex and spread over long distances and in diff...
AbstractPower distribution utilities often use impedance-based methods for locating faults along the...
Faulted circuit indicators (FCI) can be allocated along the feeders to reduce, or even eliminate, th...
Fault occurrence on power system lines is an inevitable phenomenon. Therefore, mitigation of the res...
This paper proposes an evolutionary computing strategy to solve the problem of fault indicator (FI) ...
The need for distribution reliability enhancement in the age of smart grids requires reliable method...
Abstract: The fault location techniques for power distribution systems (PDS) in use nowadays assume ...
The need for distribution reliability enhancement in the age of smart grids requires reliable method...
This paper proposes a new approach for optimal phasor measurement units placement for fault location...
Abstract: The existing methods of fault location for distribution systems consider that the system h...
Distributed Generation (DG) connection in a power system tends to increase the short circuit level i...
The distribution network is extended throughout cities, towns, and villages. Because of the increase...
This article presents a novel algorithm to find optimal sets of Phasor Measurement Units (PMUs) in p...
Rapid location of faults in electrical distribution system is very critical for effective and effici...
The conventional approach for estimating the locations of transmission line faults has been to measu...
Power distribution systems (PDS) are increasingly complex and spread over long distances and in diff...
AbstractPower distribution utilities often use impedance-based methods for locating faults along the...
Faulted circuit indicators (FCI) can be allocated along the feeders to reduce, or even eliminate, th...
Fault occurrence on power system lines is an inevitable phenomenon. Therefore, mitigation of the res...
This paper proposes an evolutionary computing strategy to solve the problem of fault indicator (FI) ...
The need for distribution reliability enhancement in the age of smart grids requires reliable method...
Abstract: The fault location techniques for power distribution systems (PDS) in use nowadays assume ...
The need for distribution reliability enhancement in the age of smart grids requires reliable method...
This paper proposes a new approach for optimal phasor measurement units placement for fault location...
Abstract: The existing methods of fault location for distribution systems consider that the system h...
Distributed Generation (DG) connection in a power system tends to increase the short circuit level i...
The distribution network is extended throughout cities, towns, and villages. Because of the increase...
This article presents a novel algorithm to find optimal sets of Phasor Measurement Units (PMUs) in p...
Rapid location of faults in electrical distribution system is very critical for effective and effici...
The conventional approach for estimating the locations of transmission line faults has been to measu...
Power distribution systems (PDS) are increasingly complex and spread over long distances and in diff...