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Dynamic Real Time National Power Grid Control using Optical Fiber composite Overhead Ground Wire (OPGW)

Published on December 2011 by B. Ram, M.K. Gaur
journal_cover_thumbnail

International Conference on Electronics, Information and Communication Engineering
Foundation of Computer Science USA
ICEICE - Number 1
December 2011
Authors: B. Ram, M.K. Gaur
4c724f97-61df-462a-a681-71f45b129644

B. Ram, M.K. Gaur . Dynamic Real Time National Power Grid Control using Optical Fiber composite Overhead Ground Wire (OPGW). International Conference on Electronics, Information and Communication Engineering. ICEICE, 1 (December 2011), 22-25.

@article{
author = { B. Ram, M.K. Gaur },
title = { Dynamic Real Time National Power Grid Control using Optical Fiber composite Overhead Ground Wire (OPGW) },
journal = { International Conference on Electronics, Information and Communication Engineering },
issue_date = { December 2011 },
volume = { ICEICE },
number = { 1 },
month = { December },
year = { 2011 },
issn = 0975-8887,
pages = { 22-25 },
numpages = 4,
url = { /specialissues/iceice/number1/4254-iceice008/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Special Issue Article
%1 International Conference on Electronics, Information and Communication Engineering
%A B. Ram
%A M.K. Gaur
%T Dynamic Real Time National Power Grid Control using Optical Fiber composite Overhead Ground Wire (OPGW)
%J International Conference on Electronics, Information and Communication Engineering
%@ 0975-8887
%V ICEICE
%N 1
%P 22-25
%D 2011
%I International Journal of Computer Applications
Abstract

The power sector in India is expanding rapidly to achieve the goal of “Electricity for all by 2012”. Due to additions of new generating plants, grid stations and sub-stations, the complexity of the power system has increased. A national power grid in any country is basically a high – voltage electric power transmission Network to connect power generating stations and major sub stations. Such grid ensure that electricity generated anywhere within the country can be used to satisfy demand elsewhere.

References
  1. CEA Master Telecommunication Plan Merz & Mclellan & BEL, 1988.
  2. John Gower, Optical Communication Systems, Second Edition, prentice Hall of India, 1993.
  3. CEA “Transmission Planning and National Grid “chapter” working Group for power section for 11th plan.
  4. Arun Phadge, “Synchronized Phasor” article in IEEE computer application in Power” April 1993.
  5. Importance of Electric SCADA in India’s Power Sector’s modernization program by Sharda Prahlad.
  6. An assessment of information technology for power Section by Anutosh Maitra, Rahul Walawalkar and Anil Khanna.
  7. David Kreiss, Kreiss Johnson Technologies ‘Non-operational data. The untapped value of substation automation’ utility Automations & Engineering T&D, September 2003.
  8. W.J. Ackerman ‘The Impact of IED on the Design of systems used for operation and control of power systems’. Power system management and control Conference 17-19 April 2002.
  9. M. Kezvnovic & A Abur Data Integrations / exchange ‘IEEE Power & Energy Magazine May/ June 2004.
Index Terms

Computer Science
Information Sciences

Keywords

IED EMS SCADA OPGW