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Decentralized dynamic state estimation of transmission lines using local measurements

Decentralized dynamic state estimation of transmission lines using local measurements
Decentralized dynamic state estimation of transmission lines using local measurements
This paper presents a novel decentralized dynamic state estimation (DSE) method for estimating the dynamic states of a transmission line in real-time. The proposed method utilizes the sampled measurements from the local end of a transmission line, and thereafter DSE is performed by employing an unscented Kalman filter. The advantage of the proposed method is that the remote end state variables of a transmission line can be estimated using only the local end variables and, hence, the need for communication infrastructure is eliminated. Furthermore, an exact nonlinear model of the transmission line is utilized for estimation and the DSE of one transmission line is independent of the other lines. These in turn result in reduced complexity, higher accuracy, and easier implementation of the decentralized estimator. The proposed method is applied to a case study with realistic transmission line parameters. The results from the case study affirm that the proposed method accurately estimates the state variables under different operating conditions. Furthermore, robust performance is achieved with different noise variances and types. The proposed DSE method is envisioned to have potential applications in transmission line monitoring, control, and protection.
2169-3536
78237-78250
Srivastava, Ankur
cef1ee3d-e4a3-4af0-9c23-1d4980a82477
Singh, Abhinav Kumar
6df7029f-21e3-4a06-b5f7-da46f35fc8d3
Anh-Tuan, Le
233e1ea7-5815-4bdb-a143-60a1f5998345
Steen, David
0cedf68c-3eb7-401c-b2ef-8a666fa36af0
Mir, Abdul Saleem
491bb457-cbe5-4705-ab36-860b78763332
Srivastava, Ankur
cef1ee3d-e4a3-4af0-9c23-1d4980a82477
Singh, Abhinav Kumar
6df7029f-21e3-4a06-b5f7-da46f35fc8d3
Anh-Tuan, Le
233e1ea7-5815-4bdb-a143-60a1f5998345
Steen, David
0cedf68c-3eb7-401c-b2ef-8a666fa36af0
Mir, Abdul Saleem
491bb457-cbe5-4705-ab36-860b78763332

Srivastava, Ankur, Singh, Abhinav Kumar, Anh-Tuan, Le, Steen, David and Mir, Abdul Saleem (2023) Decentralized dynamic state estimation of transmission lines using local measurements. IEEE Access, 11, 78237-78250. (doi:10.1109/ACCESS.2023.3298206).

Record type: Article

Abstract

This paper presents a novel decentralized dynamic state estimation (DSE) method for estimating the dynamic states of a transmission line in real-time. The proposed method utilizes the sampled measurements from the local end of a transmission line, and thereafter DSE is performed by employing an unscented Kalman filter. The advantage of the proposed method is that the remote end state variables of a transmission line can be estimated using only the local end variables and, hence, the need for communication infrastructure is eliminated. Furthermore, an exact nonlinear model of the transmission line is utilized for estimation and the DSE of one transmission line is independent of the other lines. These in turn result in reduced complexity, higher accuracy, and easier implementation of the decentralized estimator. The proposed method is applied to a case study with realistic transmission line parameters. The results from the case study affirm that the proposed method accurately estimates the state variables under different operating conditions. Furthermore, robust performance is achieved with different noise variances and types. The proposed DSE method is envisioned to have potential applications in transmission line monitoring, control, and protection.

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Published date: 24 July 2023
Learn more about Electrical Power Engineering research

Identifiers

Local EPrints ID: 502049
URI: http://eprints.soton.ac.uk/id/eprint/502049
DOI: doi:10.1109/ACCESS.2023.3298206
ISSN: 2169-3536
PURE UUID: 7b5fd6bc-1ca0-4725-a936-c2f0efa4329f
ORCID for Abhinav Kumar Singh: ORCID iD orcid.org/0000-0003-3376-6435

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Date deposited: 16 Jun 2025 16:30
Last modified: 22 Aug 2025 02:26

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Contributors

Author: Ankur Srivastava
Author: Abhinav Kumar Singh ORCID iD
Author: Le Anh-Tuan
Author: David Steen
Author: Abdul Saleem Mir

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