Sensitivity Analysis of Water Tree and Input Pulse Parameters for Time-Domain Reflectometry of Power Cables Using Taguchi Method

Jung C-K, Kim J-T, Lee J-B (2013) Partial discharge simulation and analysis based on experiment in underground distribution power cables. J Electr Eng Technol 8(4):832–839

Aulia MH, Ahmad ZA-M, Arief YZ, Yiew K, Novizon L (2016) Partial discharge characteristics in LLDPE-natural rubber blends: correlating electrical quantities with surface degradation. J Electr Eng Technol 11(3):699–706

Mohammad AK, Jaegul C, Yong-Hwa K, Joo-Ho C (2019) End-to-end partial discharge detection in power cables via time-domain convolutional neural networks. J Electr Eng Technol 14(3):1299–1309

Choi J-H (2013) An introduction to the fault detection and management technology. J KSME 53(7):24–34

Burkes KW, Makram EB, Hadidi R (2015) Water tree detection in underground cables using time domain reflectometry. IEEE Power Energy Technol Syst J 2(2):53–62

Klaehn WB (2016) Time domain reflectometry of a water tree inside an underground cable. In: Proceedings of the 2016 COMSOL conference, Boston

Choi M-S, Park J-s, Byun J-K, Kim D-H, Hwangbo S, Yi D-Y (2018) Analysis of pulse propagation characteristics for detection of water trees in power cables. J Korean Magn Soc 28(2):66–74

Lim J, Mun J, Kang B, Kim D-H, Byun J-K, Hwangbo S, Yi D-Y (2019) Verification of a computer simulation based on the pulse propagation characteristics for detection of water trees in power cables. J Korean Magn Soc 29(3):91–97

COMSOL Inc. (www.comsol.com)

Technical Standards of KEPCO, ES-6145-0025, (2017)

Jeff WCF, Michael H (2000) Experiments: planning, analysis, and parameter design optimization, 1st edn. Wiley, New York

Nalbant M, Gökkaya H, Sur G (2007) Application of Taguchi method in the optimization of cutting parameters for surface roughness in turning. Mater Des 28(4):1379–1385