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High impedance fault detection in power distribution networks using time–frequency transform and probabilistic neural network

High impedance fault detection in power distribution networks using time–frequency transform and probabilistic neural network

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An intelligent approach for high impedance fault (HIF) detection in power distribution feeders using advanced signal-processing techniques such as time–time and time–frequency transforms combined with neural network is presented. As the detection of HIFs is generally difficult by the conventional over-current relays, both time and frequency information are required to be extracted to detect and classify HIF from no fault (NF). In the proposed approach, S- and TT-transforms are used to extract time–frequency and time–time distributions of the HIF and NF signals, respectively. The features extracted using S- and TT-transforms are used to train and test the probabilistic neural network (PNN) for an accurate classification of HIF from NF. A qualitative comparison is made between the HIF classification results obtained from feed forward neural network and PNN with same features as inputs. As the combined signal-processing techniques and PNN take one cycle for HIF identification from the fault inception, the proposed approach was found to be the most suitable for HIF classification in power distribution networks with wide variations in operating conditions.

Inspec keywords: power distribution protection; pattern classification; transforms; statistical distributions; power system analysis computing; feedforward neural nets; fault diagnosis; time-frequency analysis; feature extraction; relays; power distribution faults; signal processing

Other keywords: probabilistic neural network; power distribution feeders; feedforward neural network; high impedance fault detection; advanced signal-processing technique; conventional over-current relay; time-frequency transform; time-time transform; power distribution networks; feature extraction

Subjects: Power engineering computing; Neural computing techniques; Integral transforms; Other topics in statistics; Mathematical analysis; Integral transforms; Relays and switches; Distribution networks; Mathematical analysis

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