Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines

This paper presents a new technique for accurate fault location based on voltage measurement from one end of the two-terminal transmission line and Smooth Support Vector Machine (SSVM). Due to common problems of current transformer during fault location and as a result increasing the cost and reduct...

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Main Authors: Alanzi E.A.J., Younis M.A.A.
Other Authors: 36987889100
Format: Conference Paper
Published: 2023
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spelling my.uniten.dspace-304402024-04-16T15:46:44Z Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines Alanzi E.A.J. Younis M.A.A. 36987889100 56501517900 ATP-EMTP Fault location Smooth Support Vector Machines Cost reduction Electric current measurement Electric instrument transformers Electric lines Electric surges Gears Global positioning system Support vector machines Transmission line theory Voltage measurement ATP-EMTP Common problems Current measurements Current transformer Economic costs Fault location Fault resistances Fault types Smooth support vector machine Smooth Support Vector Machines Transmission line Two-terminal transmission line Electric fault location This paper presents a new technique for accurate fault location based on voltage measurement from one end of the two-terminal transmission line and Smooth Support Vector Machine (SSVM). Due to common problems of current transformer during fault location and as a result increasing the cost and reduction of the accuracy, proposed technique is independent of current measurement and based on one terminal voltage measurement of the transmission line. Post-fault voltage at one end of the line is measured and used in calculation of the fault location. GPS (global positioning system) is not required for this technique resulting in a reduction of economic cost. Using the proposed technique, fault location can be estimated with a lower than 0.025% error without using current transformers and GPS. EMTP/ATP simulation and SSVM results show that the proposed fault location technique is independent of fault type, fault resistance and fault inception of the transmission line. � 2011 IEEE. Final 2023-12-29T07:47:52Z 2023-12-29T07:47:52Z 2011 Conference Paper 10.1109/IEEEGCC.2011.5752591 2-s2.0-79957991751 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79957991751&doi=10.1109%2fIEEEGCC.2011.5752591&partnerID=40&md5=465a81f7adbbfaa0434aa4f9bc719711 https://irepository.uniten.edu.my/handle/123456789/30440 5752591 485 488 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic ATP-EMTP
Fault location
Smooth Support Vector Machines
Cost reduction
Electric current measurement
Electric instrument transformers
Electric lines
Electric surges
Gears
Global positioning system
Support vector machines
Transmission line theory
Voltage measurement
ATP-EMTP
Common problems
Current measurements
Current transformer
Economic costs
Fault location
Fault resistances
Fault types
Smooth support vector machine
Smooth Support Vector Machines
Transmission line
Two-terminal transmission line
Electric fault location
spellingShingle ATP-EMTP
Fault location
Smooth Support Vector Machines
Cost reduction
Electric current measurement
Electric instrument transformers
Electric lines
Electric surges
Gears
Global positioning system
Support vector machines
Transmission line theory
Voltage measurement
ATP-EMTP
Common problems
Current measurements
Current transformer
Economic costs
Fault location
Fault resistances
Fault types
Smooth support vector machine
Smooth Support Vector Machines
Transmission line
Two-terminal transmission line
Electric fault location
Alanzi E.A.J.
Younis M.A.A.
Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines
description This paper presents a new technique for accurate fault location based on voltage measurement from one end of the two-terminal transmission line and Smooth Support Vector Machine (SSVM). Due to common problems of current transformer during fault location and as a result increasing the cost and reduction of the accuracy, proposed technique is independent of current measurement and based on one terminal voltage measurement of the transmission line. Post-fault voltage at one end of the line is measured and used in calculation of the fault location. GPS (global positioning system) is not required for this technique resulting in a reduction of economic cost. Using the proposed technique, fault location can be estimated with a lower than 0.025% error without using current transformers and GPS. EMTP/ATP simulation and SSVM results show that the proposed fault location technique is independent of fault type, fault resistance and fault inception of the transmission line. � 2011 IEEE.
author2 36987889100
author_facet 36987889100
Alanzi E.A.J.
Younis M.A.A.
format Conference Paper
author Alanzi E.A.J.
Younis M.A.A.
author_sort Alanzi E.A.J.
title Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines
title_short Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines
title_full Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines
title_fullStr Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines
title_full_unstemmed Accurate fault location of two-terminal transmission line based on one end voltage measurement and Smooth Support Vector Machines
title_sort accurate fault location of two-terminal transmission line based on one end voltage measurement and smooth support vector machines
publishDate 2023
_version_ 1806428311187881984
score 13.222552