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Non-traditional Algorithms for Offshore Engineering Systems Read chapter Read first chapter

2023 | OriginalPaper | Chapter

Random Forest Regression-Based Fault Location Scheme for Transmission Lines

Authors : Maanvi Bhatnagar, Anamika Yadav, Aleena Swetapadma

Published in: Smart Technologies for Power and Green Energy

Publisher: Springer Nature Singapore

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Abstract

The location of the fault is a very important issue with electric power systems, as it allows the system to be isolated as soon as possible, and to be recovered as quickly as probable. This allows electric equipment to function without an overload and ensures that buyers are satisfied. This paper proposes a random forest (RF) and Teager-Kaiser energy operator (TKEO)-based fault location scheme tested using an IEEE 14-bus system. The Teager energy of both voltage and current signals of pre- and post-fault signals has been evaluated and given as an input to the RF regressor modules. For different types of faults, four regressor models were developed. Testing of the proposed scheme under a variety of fault conditions has demonstrated the ability of the scheme to accurately determine the fault site. This fault location scheme retains its accuracy even if there are changes in fault characteristics such as fault initiation angle and fault resistance. Another advantage of this scheme is its ability to determine the location of high impedance faults (HIF) accurately. The absolute error in fault location estimation is well within 1 km for most of the test cases.

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previous chapter Intelligent Optimization Techniques for Controlling Load Frequency of Interconnected Multiple Source Power Systems Including Renewable Energy Sources
next chapter Islanding Detection in Distributed Generation System Using MLPNN and ELPID Methods
Literature
1.
M. Bhatnagar, A. Yadav, Fault detection and classification in transmission line using fuzzy inference system, in 5th IEEE International Conference on Recent Advances and Innovations in Engineering (ICRAIE), pp.1–6. IEEE, India (2020)
2.
A. Swetapadma, A. Yadav, Fuzzy based fault location estimation during unearthed open conductor faults in double circuit transmission line, in Information Systems Design and Intelligent Applications, pp. 445–456. Springer, New Delhi (2016)
3.
M. Khalili, F. Namdari, E. Rokrok, Traveling wave-based protection for TCSC connected transmission lines using game theory. Int. Trans. Electr. Energy Syst. 30(10), 12545 (2020)CrossRef
4.
A. Abu-, M.I. Mosaad, S. Mir, Voltage–current technique to identify fault location within long transmission lines. IET Gener. Transm. Distrib. 14(23), 5588–5596 (2020)
5.
A. Abu-, S. Mir, A new on-line technique to identify fault location within long transmission lines. Eng. Fail. Anal. 105, 52–64 (2019)
6.
S. Mishra, S. Gupta, A. Yadav, A novel two-terminal fault location approach utilizing traveling-waves for series compensated line connected to wind farms. Electr. Power Syst. Res. 198, 107362 (2021)
7.
K.H. Mallick, B. Patel, P. Bera, WPD and RBFNN based fault location estimation on TCSC based series compensated transmission line, in International Conference on Computational Intelligence. Communications, and Business Analytics. (Springer, Singapore, 2018), pp. 425–433
8.
M. Dashtdar, Fault location in the transmission network using a discrete wavelet transform. Am. J. Electr. Comput. Eng. 3(1), 30–37 (2019)CrossRef
9.
R. Fan, Y. Liu, R. Huang, R. Diao, S. Wang, Precise fault location on transmission lines using ensemble Kalman filter. IEEE Trans. Power Deliv. 33(6), 3252–3255 (2018)CrossRef
10.
A. Swetapadma, A. Yadav, An artificial neural network-based solution to locate the multilocation faults in double circuit series capacitor compensated transmission lines. Int. Trans. Electr. Energy Syst. 28(4), e2517 (2018)
11.
C. Fei, G. Qi, C. Li, Fault location on high voltage transmission line by applying support vector regression with fault signal amplitudes. Electr. Power Syst. Res. 160, 173–179 (2018)CrossRef
12.
13.
I.I. Alnaib, O.S. Alyozbaky, A. Abbawi, A new approach to detecting and classifying multiple faults in IEEE 14-bus system. Eastern-Eur. J. Enterpr. Technol. 5(8), 107 (2020)
Metadata
Title
Random Forest Regression-Based Fault Location Scheme for Transmission Lines
Authors
Maanvi Bhatnagar
Anamika Yadav
Aleena Swetapadma
Copyright Year
2023
Publisher
Springer Nature Singapore
Book
Smart Technologies for Power and Green Energy

Print ISBN: 978-981-19-2763-8

Electronic ISBN: 978-981-19-2764-5

Copyright Year: 2023

DOI
https://doi.org/10.1007/978-981-19-2764-5_17