[1] Zayandehroodi, H., Mohamed, A., Shareef, H., and Mohammadjafari, M. (2011). "Determining
exact fault location in a distribution network in presence of DGs using RBF neural networks,"
in IEEE International Conference on Information Reuse and Integration (IRI), Las Vegas,
Nevada, USA, 2011, pp. 434-438.
[2] Heidari, A., Agelidis, V.G., Zayandehroodi, H., and Hasheminamin, M. (2013). "Prevention of
Overcurrent Relays Miscoordination in Distribution System Due To High Penetration of
Distributed Generation," in 2nd International Conference on Renewable Energy Research and
Applications (ICRERA 2013), Madrid, Spain 2013, pp. 1-5.
[3] Paithankar, P.Y., Bhide, S.R., (2010). Fundamentals of Power System Protection: PHI Learning.
Electrical Journal, 2(3):35-45
[4] Switchgear, S.R. (2012). "Power System Protection". Prentice-Hall Of India Pvt. Limited,
2(3):45-56
[5] Ram, B., and Vishwakarma, D. (2001). Power System Protection and Switchgear: Tata
McGraw-Hill.
[6] Liu, B. Chen, and Blum, R.S. (2007). "Minimum error probability cooperative relay design,"
Signal Processing, IEEE Transactions on, 55(2): 656-664.
[7] Brian, L. (2000). “Digital/Numerical RelaysT.S.M. RaoTata McGraw-Hill Education”. Electric
power systems,2(3):34-45
Structure And Technology Of The Numerical Relay Protection In The Power Systems
7
[8] Jason, N. (1995). “Network Protection & Automation Guide”. Areva T&D, 2(3):45-55
[9] Data Manual: TMS320F2810, TMS320F2811, TMS320F2812, TMS320C2810,
TMS320C2811, TMS320C2812 Digital Signal Processors, Texas Instruments, 2010.
[10] Jakson, R. (2003). “Flexibility and Reliability of Numerical Protection Relay”. electricalengineering-
portal, 2(3): 32-43
Thank you for copying data from http://www.arastirmax.com