Power network observability: A fast solution technique using graph theory

Amit Jain; R. Balasubramanian; S. C. Tripathy; Keepok Yun; Hongkyim Kim; Jaeho Choi; Yoshiyuki Kawazoe

Power network observability: A fast solution technique using graph theory

Amit Jain, R. Balasubramanian, S. C. Tripathy, Keepok Yun, Hongkyim Kim, Jaeho Choi, Yoshiyuki Kawazoe

New Industry Creation Hatchery Center (NICHe)

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

5 Citations (Scopus)

Abstract

This paper presents a fast solution technique for power network observability problem. This method is based on graph theory and provides an efficient way to find the topological observability of power system network for a given set of measurement A power network is topologically observable if it is possible to find an observable spanning tree of measurement graph. The observability problem is split in P-δ observability and Q-V observability by P-δ/Q-V decouple characteristic of power systems. The existence of an observable spanning tree is searched through the methodology suggested in this paper and a conclusion about the observability or unobservability is reached. This solution technique has been successfully tested on the standard IEEE test systems and results obtained are presented for illustration.

Original language	English
Title of host publication	2004 International Conference on Power System Technology, POWERCON 2004
Pages	1839-1844
Number of pages	6
Publication status	Published - 2004
Event	2004 International Conference on Power System Technology, POWERCON 2004 - , Singapore Duration: 2004 Nov 21 → 2004 Nov 24

Publication series

Name	2004 International Conference on Power System Technology, POWERCON 2004
Volume	2

Conference

Conference	2004 International Conference on Power System Technology, POWERCON 2004
Country/Territory	Singapore
Period	04/11/21 → 04/11/24

Keywords

Injection
Line flow
Spanning tree
State estimation
Topological observability
Unobservable

Cite this

@inproceedings{e104a787968a49c3992172edfc50e6d5,

title = "Power network observability: A fast solution technique using graph theory",

abstract = "This paper presents a fast solution technique for power network observability problem. This method is based on graph theory and provides an efficient way to find the topological observability of power system network for a given set of measurement A power network is topologically observable if it is possible to find an observable spanning tree of measurement graph. The observability problem is split in P-δ observability and Q-V observability by P-δ/Q-V decouple characteristic of power systems. The existence of an observable spanning tree is searched through the methodology suggested in this paper and a conclusion about the observability or unobservability is reached. This solution technique has been successfully tested on the standard IEEE test systems and results obtained are presented for illustration.",

keywords = "Injection, Line flow, Spanning tree, State estimation, Topological observability, Unobservable",

author = "Amit Jain and R. Balasubramanian and Tripathy, {S. C.} and Keepok Yun and Hongkyim Kim and Jaeho Choi and Yoshiyuki Kawazoe",

year = "2004",

language = "English",

isbn = "0780386108",

series = "2004 International Conference on Power System Technology, POWERCON 2004",

pages = "1839--1844",

booktitle = "2004 International Conference on Power System Technology, POWERCON 2004",

note = "2004 International Conference on Power System Technology, POWERCON 2004 ; Conference date: 21-11-2004 Through 24-11-2004",

}

Jain, A, Balasubramanian, R, Tripathy, SC, Yun, K, Kim, H, Choi, J & Kawazoe, Y 2004, Power network observability: A fast solution technique using graph theory. in 2004 International Conference on Power System Technology, POWERCON 2004. 2004 International Conference on Power System Technology, POWERCON 2004, vol. 2, pp. 1839-1844, 2004 International Conference on Power System Technology, POWERCON 2004, Singapore, 04/11/21.

Power network observability: A fast solution technique using graph theory. / Jain, Amit; Balasubramanian, R.; Tripathy, S. C. et al.
2004 International Conference on Power System Technology, POWERCON 2004. 2004. p. 1839-1844 (2004 International Conference on Power System Technology, POWERCON 2004; Vol. 2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Power network observability

T2 - 2004 International Conference on Power System Technology, POWERCON 2004

AU - Jain, Amit

AU - Balasubramanian, R.

AU - Tripathy, S. C.

AU - Yun, Keepok

AU - Kim, Hongkyim

AU - Choi, Jaeho

AU - Kawazoe, Yoshiyuki

PY - 2004

Y1 - 2004

N2 - This paper presents a fast solution technique for power network observability problem. This method is based on graph theory and provides an efficient way to find the topological observability of power system network for a given set of measurement A power network is topologically observable if it is possible to find an observable spanning tree of measurement graph. The observability problem is split in P-δ observability and Q-V observability by P-δ/Q-V decouple characteristic of power systems. The existence of an observable spanning tree is searched through the methodology suggested in this paper and a conclusion about the observability or unobservability is reached. This solution technique has been successfully tested on the standard IEEE test systems and results obtained are presented for illustration.

AB - This paper presents a fast solution technique for power network observability problem. This method is based on graph theory and provides an efficient way to find the topological observability of power system network for a given set of measurement A power network is topologically observable if it is possible to find an observable spanning tree of measurement graph. The observability problem is split in P-δ observability and Q-V observability by P-δ/Q-V decouple characteristic of power systems. The existence of an observable spanning tree is searched through the methodology suggested in this paper and a conclusion about the observability or unobservability is reached. This solution technique has been successfully tested on the standard IEEE test systems and results obtained are presented for illustration.

KW - Injection

KW - Line flow

KW - Spanning tree

KW - State estimation

KW - Topological observability

KW - Unobservable

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M3 - Conference contribution

AN - SCOPUS:20444440342

SN - 0780386108

T3 - 2004 International Conference on Power System Technology, POWERCON 2004

SP - 1839

EP - 1844

BT - 2004 International Conference on Power System Technology, POWERCON 2004

Y2 - 21 November 2004 through 24 November 2004

ER -

Power network observability: A fast solution technique using graph theory

Abstract

Publication series

Conference

Keywords

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Cite this