Reliability and survivability analysis of artificial cobweb network model used in the low-voltage power-line communication system

L. Zhang; X. S. Liu; J. W. Pang; D. G. Xu; V. C.M. Leung

doi:10.1109/TPWRD.2015.2426205

Reliability and survivability analysis of artificial cobweb network model used in the low-voltage power-line communication system

L. Zhang
, X. S. Liu
, J. W. Pang
, D. G. Xu
, V. C.M. Leung

School of Electrical Engineering and Automation, Harbin Institute of Technology
University of British Columbia

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

In order to verify the feasibility of the artificial cobweb model used in low-voltage power-line communication (LVPLC) routing to improve the reliability of LVPLC, the all-terminal reliability of the artificial cobweb model has been calculated based on the factorization method in this paper. Analysis shows that the proposed artificial cobweb shows much better survivability than existing tree and ring network topologies. Simulation results of delay, throughput, and bit-error ratio are further presented to verify the correctness of the theoretical analysis about the reliability and survivability of LVPLC networks based on the artificial cobweb model, which further proves the feasibility of the artificial cobweb model for LVPLC routing. These results potentially provide a guideline to practical LVPLC system design.

Original language	English
Article number	7097074
Pages (from-to)	1980-1988
Number of pages	9
Journal	IEEE Transactions on Power Delivery
Volume	31
Issue number	5
DOIs	https://doi.org/10.1109/TPWRD.2015.2426205
State	Published - Oct 2016
Externally published	Yes

Keywords

All-terminal reliability
anti-destroying ability
cobweb network
power-line communication
survivability

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10.1109/TPWRD.2015.2426205

Cite this

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title = "Reliability and survivability analysis of artificial cobweb network model used in the low-voltage power-line communication system",

abstract = "In order to verify the feasibility of the artificial cobweb model used in low-voltage power-line communication (LVPLC) routing to improve the reliability of LVPLC, the all-terminal reliability of the artificial cobweb model has been calculated based on the factorization method in this paper. Analysis shows that the proposed artificial cobweb shows much better survivability than existing tree and ring network topologies. Simulation results of delay, throughput, and bit-error ratio are further presented to verify the correctness of the theoretical analysis about the reliability and survivability of LVPLC networks based on the artificial cobweb model, which further proves the feasibility of the artificial cobweb model for LVPLC routing. These results potentially provide a guideline to practical LVPLC system design.",

keywords = "All-terminal reliability, anti-destroying ability, cobweb network, power-line communication, survivability",

author = "L. Zhang and Liu, \{X. S.\} and Pang, \{J. W.\} and Xu, \{D. G.\} and Leung, \{V. C.M.\}",

note = "Publisher Copyright: {\textcopyright} 1986-2012 IEEE.",

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doi = "10.1109/TPWRD.2015.2426205",

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TY - JOUR

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AU - Zhang, L.

AU - Liu, X. S.

AU - Pang, J. W.

AU - Xu, D. G.

AU - Leung, V. C.M.

PY - 2016/10

Y1 - 2016/10

N2 - In order to verify the feasibility of the artificial cobweb model used in low-voltage power-line communication (LVPLC) routing to improve the reliability of LVPLC, the all-terminal reliability of the artificial cobweb model has been calculated based on the factorization method in this paper. Analysis shows that the proposed artificial cobweb shows much better survivability than existing tree and ring network topologies. Simulation results of delay, throughput, and bit-error ratio are further presented to verify the correctness of the theoretical analysis about the reliability and survivability of LVPLC networks based on the artificial cobweb model, which further proves the feasibility of the artificial cobweb model for LVPLC routing. These results potentially provide a guideline to practical LVPLC system design.

AB - In order to verify the feasibility of the artificial cobweb model used in low-voltage power-line communication (LVPLC) routing to improve the reliability of LVPLC, the all-terminal reliability of the artificial cobweb model has been calculated based on the factorization method in this paper. Analysis shows that the proposed artificial cobweb shows much better survivability than existing tree and ring network topologies. Simulation results of delay, throughput, and bit-error ratio are further presented to verify the correctness of the theoretical analysis about the reliability and survivability of LVPLC networks based on the artificial cobweb model, which further proves the feasibility of the artificial cobweb model for LVPLC routing. These results potentially provide a guideline to practical LVPLC system design.

KW - All-terminal reliability

KW - anti-destroying ability

KW - cobweb network

KW - power-line communication

KW - survivability

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U2 - 10.1109/TPWRD.2015.2426205

DO - 10.1109/TPWRD.2015.2426205

M3 - 文章

AN - SCOPUS:84989162263

SN - 0885-8977

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SP - 1980

EP - 1988

JO - IEEE Transactions on Power Delivery

JF - IEEE Transactions on Power Delivery

IS - 5

M1 - 7097074

ER -

Reliability and survivability analysis of artificial cobweb network model used in the low-voltage power-line communication system

Abstract

Keywords

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