Detecting high impedance faults (HIFs) is one of the challenging issues for electrical engineers. This type of fault occurs often when one of the overhead conductors is downed and makes contact with the ground, causing a high-voltage conductor to be within the reach of personnel. As the wavelet transform (WT) technique is a powerful tool for transient analysis of fault signals and gives information both on the time domain and frequency domain, this technique has been considered for an unconventional fault like high impedance fault. This paper presents a new technique that utilizes the features of energy contents in detail coefficients (D4 and D5) from the extracted current signal using a discrete wavelet transform in the multiresolution ana...
The distribution feeder faults need to be detected and isolated in a reliable and accura...
This paper presets a method including a combination of the wavelet transform and fuzzy function appr...
Locating the faulty section of a high-impedance fault (HIF) is quite challenging for the underground...
High impedance faults (HIFs) present a huge complexity of identification in an electric power distri...
High impedance fault (HIF) has long been a challenging problem in network protection due to its rand...
The purpose of this paper is to solve the problem of protecting aerial lines from high impedance fau...
Abstract — This paper presents a wavelet transform based technique for the detection of High impedan...
Detecting and locating high impedance fault (HIF) in distribution system is a crucial task. HIF caus...
Locating a faulty section of the high impedance fault (HIF) in a power system network is a major cha...
Here, a data mining–driven scheme based on discrete wavelet transform (DWT) is proposed for high imp...
This paper proposes a discrete wavelet transform (DWT)-based Graphical Language classifier algorithm...
Detecting and identifying High Impedance Fault (HIF) in distribution system is an essential task for...
High-impedance faults (HIFs) caused by downed conductors in electric power systems are in general di...
A novel approach for detection of High Impedance Faults (HIF) using wavelet transforms is presented...
High impedance fault (HIF) is a type of fault, where the fault current flow is restricted by the hig...
The distribution feeder faults need to be detected and isolated in a reliable and accura...
This paper presets a method including a combination of the wavelet transform and fuzzy function appr...
Locating the faulty section of a high-impedance fault (HIF) is quite challenging for the underground...
High impedance faults (HIFs) present a huge complexity of identification in an electric power distri...
High impedance fault (HIF) has long been a challenging problem in network protection due to its rand...
The purpose of this paper is to solve the problem of protecting aerial lines from high impedance fau...
Abstract — This paper presents a wavelet transform based technique for the detection of High impedan...
Detecting and locating high impedance fault (HIF) in distribution system is a crucial task. HIF caus...
Locating a faulty section of the high impedance fault (HIF) in a power system network is a major cha...
Here, a data mining–driven scheme based on discrete wavelet transform (DWT) is proposed for high imp...
This paper proposes a discrete wavelet transform (DWT)-based Graphical Language classifier algorithm...
Detecting and identifying High Impedance Fault (HIF) in distribution system is an essential task for...
High-impedance faults (HIFs) caused by downed conductors in electric power systems are in general di...
A novel approach for detection of High Impedance Faults (HIF) using wavelet transforms is presented...
High impedance fault (HIF) is a type of fault, where the fault current flow is restricted by the hig...
The distribution feeder faults need to be detected and isolated in a reliable and accura...
This paper presets a method including a combination of the wavelet transform and fuzzy function appr...
Locating the faulty section of a high-impedance fault (HIF) is quite challenging for the underground...