References:
[1] M. Aliakbar-Golkar, “Design and operation of electric
distribution systems”, K.N.Toosi University, Tehran, 2001.
[2] N. Hadjsaid, M.C. Alvarez-Hérault, R. Caire, B. Raison, J.
Descloux and W. Bienia, “Novel architectures and operation
modes of distribution network to increase DG integration”, IEEE
Power and Energy Society General Meeting, pp.1-6, 25-29 July,
2010.
[3] S.M. Moghadas-Tafreshi and E. Mashhour, “Distributed
generation modeling for power flow studies and a three-phase
unbalanced power flow solution for radial distribution systems
considering distributed generation”, Electric Power Syst.
Research, Vol. 79, pp.680-686, 2009.
[4] H. Yang, F. Wen, L. Wang and S.N. Singh, “Newton-downhill
algorithm for distribution power flow analysis”, 2nd IEEE Int.
Conf. on Power and Energy, Johor Baharu, Malaysia, Dec. 1-3,
2008.
[5] L.R. Araujo, D.R.R. Penido, S. Carneiro Jr, J.L.R. Pereira and
P.A.N. Garcia, “A comparative study on the performance of
TCIM full Newton versus backward-forward power flow
methods for large distribution systems”, IEEE Power Syst. Conf.
and Exposition, pp.522-526, Oct. 29- Nov. 1, 2006.
[6] Da Costa V.M., Martins M. and Preira J.L.R., “An augmented
Newton-Raphson power flow formulation based on current
injections”, Electrical Power and Energy Syst., Vol. 23, pp.305-
312, 2001.
[7] S. Kamel, M. Abdel-Akher and M.K. El-Nemr, “A new
technique to improve voltage controlled nodes (PV nodes) in the
current injection Newton-Raphson power flow analysis”, 45th
Int. Universities Power Engineering Conf. (UPEC), Agu. 31-
Sept. 3, pp.1-4, 2010.
[8] T.H. Chen, M.S. Chen, K.J. Hwang, P. Kotas and E.A. Chebli,
“Distribution system power flow analysis- A rigid approach”,
IEEE Trans. on Power Delivery, Vol. 6, No. 3, pp.1146-1152,
July 1991.
[9] A.G. Bhutad, S.V. Kulkarni and S.A. Khaparde, “Three-phase
load flow methods for radial distribution networks”, TENCON
Conf. on Convergent Technologies for Asia-Pacific Region,
Vol. 2, pp.781-785, 15-17 Oct., 2003.
[10] H. Chen, J. Chen, D. Shi and X. Duan, “Power flow study and
voltage stability analysis for distribution systems with
distributed generation”, IEEE Power Engineering Society
General Meeting, pp.1-8, 2006.
[11] C.A. Penuela, M. Granada E. and J.R.S Mantovani,
"Probabilistic analysis of the distributed power generation in
weakly meshed distribution systems", IEEE/PES Transmission
and Distribution Conf. and Exposition: Latin America T&D-LA,
pp.171-177, 8-10 Nov. 2010.
[12] G.X. Luo and A. Semlyen, “Efficient load flow for large weakly
meshed networks”, IEEE Trans. on Power Syst., Vol. 5, No. 4,
pp.1309-1316, 1990.
[13] A. Augugliaro, L. Dusonchet, S. Favuzza, M.G. Ippolito and
E.R. Sanseverino, “A new backward/forward method for
solving radial distribution networks with PV nodes”, Electric
Power Syst. Research, Vol. 78, pp.330-336, 2008.
[14] P. Acharjee and S.K. Goswami, “Simple but reliable two-stage
GA based load flow”, Electric Power Components and Syst.,
Vol. 36, No. 1, pp.47-62, 2008.
[15] D. Chakraborty, C.P. Sharma, B. Das, K. Abhishek and T.
Malakar, “Distribution load flow solution using genetic
algorithm”, 3rd IEEE Int. Conf. on Power Syst., Kharagpur,
India, Dec. 27-29, 2009.
[16] P. Acharjee, and S.K. Goswami, “Chaotic Particle Swarm
Optimization based reliable algorithm to overcome the
limitations of conventional power flow methods”, IEEE/PES
Power Syst. Conf. and Exposition (PSCE), pp.1-7, 15-18
March, 2009.
[17] A. Rathinam, S. Padmini and V. Ravikumar, “Application of
supervised learning artificial neural networks [CPNN,BPNN]
for solving power flow problem”, IET-UK Int. Conf. on
Information and Communication Technology in Electrical
Science (ICTES), India, Dec. 20-22, pp.156-160, 2007.
[18] M. Cai, R. Chen and L. Kong, “Hyper-chaotic neural network
based on Newton iterative method and its application in solving
load flow equations of power system”, Int. Conf. on Measuring
Technology and Mechatronics Automation (ICMTMA), pp.226-
229, 2009