[[1] Filho J.M.C., ș.a. – „Validation of Voltage Sag Simulation Tools: ATP and Short Circuit Calculation Versus Field Measurements”. IEEE Transactions on Power Delivery 23, pag. 1472-1480, 2008.]Search in Google Scholar
[[2] Voltage Sags Indices, IEEE Std. P1564 draft 6, Jan. 2004.]Search in Google Scholar
[[3] J. M. C. Filho, J. P. G. Abreu, R. C. Leborgne, T. C. Oliveira, D.M. Correia, and J.F. Oliveira, “Comparative analysis between mea-surements and simulations of voltage sags,” presented at the 10th IEEE Power Eng. Soc. Int. Conf. Harmonics Quality of Power, Rio deJaneiro, Brazil, Oct. 2002.]Search in Google Scholar
[[4] J. M. C. Filho, J. P. G. Abreu, H. Arango, and J. C. C. Noronha, “Electric power system under voltage sag: A tool for achieving compatibility,” in Proc. 9th IEEE Power Eng. Soc. Int. Conf. Harmonics Qualityof Power, Orlando, FL, Oct. 2000, vol. 3, pp. 784–789.]Search in Google Scholar
[[5] J. M. C. Filho, J. P. G. Abreu, T. C. Oliveira, O. A. S. Carpinteiro, C.B. R. Junior, F. A. Oliveira, R. P. Gomes, S. G. Carvalho, and D. N.Gonçalves, “A software for voltage sags strategic studies,” presented atthe 11th IEEE Power Eng. Soc. Int. Conf. Harmonics Quality of Power,Lake Placid, NY, Sep. 2004.]Search in Google Scholar
[[6] Patne N.R., Thakre K.L. – „Stochastic Estimation of voltage Sag Due to Faults in the Power System by Using PSCAD/EMTDC Software as a Tool for Simulation”, Journal of Electrical Power Quality and Utilisation 13, pag. 59-63, 2007.]Search in Google Scholar
[[7] Bollen M.H.J., Understanding Power Quality Problems; Voltage Sags and interruptions. ser. IEEE Press Series on Power Engineering, Piscataway, NJ, 2000.]Search in Google Scholar
[[8] Juarez E.E., Hernandez A.: An analytical approach for stochastic assessment of balanced and unbalanced voltage sags in large system. In IEEE Transaction on Power Delivery, Vol.21, No.3, July 2006.10.1109/TPWRD.2005.860266]Search in Google Scholar
[[9] Moschakis M.N., Hatziargyriou N.C.: Analytical calculation and stochastic assessment of voltage sags. IEEE Transaction on Power Delivery, Vol.21, No., July 2006.10.1109/TPWRD.2006.874108]Search in Google Scholar
[[10] Anaya -Lara O., Acha E.: Modeling and Analysis of Custom Power Systems by PSCAS/EMTDC. IEEE transaction on Power Delivery,Vol.17,No.1, January 2002.10.1109/61.974217]Search in Google Scholar
[[11] Hadi S. – „Power System Analysis”, McGraw Hill, 2004.]Search in Google Scholar
[[12] Ntombela M., ș.a. – „An Investigation into the Capabilities of MATLAB Power System Toolbox for Small Signal Stability Analysis in Power Systems”, IEEE PES Conference and Exposition, 2005.]Search in Google Scholar
[[13] J. G. Slootweg, J. Persson, A. M. van Voorden, G. C. Paap, W. L. Kling, A Study of the Eigenvalue Analysis Capabilities of Power System Dynamics Simulation Software, 14 PSCC, Sevilla, 24 – 28 June, 2002.]Search in Google Scholar
[[14] J. Persson, J. G. Slootweg, L. Rouco, L. SÖder, and W. L. Kling, A Comparison of Eigenvalues Obtained with Two Dynamic Simulation Software Packages, Accepted for presentation at 2003 IEEE Bologna Power Tech Conference, 23-26 June, Bologna, Italy, Paper 0-7803-7967-5/03.]Search in Google Scholar
[[15] J. G. Slootweg, J. Persson, A. M. van Voorden, G. C. Paap, W. L. Kling, A Study of the Eigenvalue Analysis Capabilities of Power System Dynamics Simulation Software, 14 PSCC, Sevilla, 24-28 June, 2002.]Search in Google Scholar
[[16] Milano F. – „An Open Source Power System Analysis Toolbox”, IEEE Transaction on Power Systems 20, pag. 1199-1206, 2005.10.1109/TPWRS.2005.851911]Search in Google Scholar
[[17] Vanfretti L., Milano F. – „Application of the PSAT, an Open Source Software for Educational and Research Purposes”, IEEE PES General Meeting, 2007.10.1109/PES.2007.385952]Search in Google Scholar
[[18] M. Larsson, “ObjectStaban educational tool for power system stability studies”, IEEE Trans. Power Syst., vol. 19, no. 1, pp. 56-63, Feb. 2004.10.1109/TPWRS.2003.821001]Search in Google Scholar
[[19] J. H. Chow, K. W. Cheung, “A toolbox for power system dynamics and control engineering education and research”, IEEE Trans. Power Syst., vol. 7, no. 4, pp. 1559-1564, Nov. 1992.]Search in Google Scholar
[[20] A. H. L. Chen, C. O. Nwankpa, H. G. Kwatny, X. Yu, “Voltage stability toolbox: an introduction and implementation”, Proc. 28th North American Power Symp., Nov. 1996.]Search in Google Scholar
[[21] F. Milano, PSAT Matlab-Based Power System Analysis Toolbox, 2002.]Search in Google Scholar
[[22] M. Kezunovic, G. H. A. Abur, A. Bose, and K. Tomsovic, “The Roleof Digital Modeling and Simulation in Power Engineering Education,”in IEEE Transactions on Power Systems, no. 1, Feb. 2004, pp. 64–72.10.1109/TPWRS.2003.821002]Search in Google Scholar
[[23] J. Chow, F. F. Wu, and J. Momoh, Applied Mathematics for RestructuredElectric Power Systems. Springer-Verlag, 2005, reference in Chapter 8, Instability Monitoring and Control of Power Systems, by E. H. Abed,M. A. Hassouneh and M. S. Saad.]Search in Google Scholar
[[24] Sybille G., Hoang L.H. – „Digital Simulation of Power Systems and Power Electronics using the MATLAB/Simulink Power System Blockset”, IEEE PES Winter Meeting 4, pag. 2973-2981, 2000.]Search in Google Scholar
[[25] Sybille G., ș.a. – „Theory and Applications of Power System Blockset, A MATLAB/Simulink-Based Simulation Tool for Power Systems”, IEEE PES Winter Meeting 1, pag. 774-779, 2000.]Search in Google Scholar
[[26] Dessaint L.A., ș.a. – „A Power System Simulation Tool Based on Simulink”, IEEE Transactions on Industrial Electronics 46, pag. 1252-1254, 1999.]Search in Google Scholar
[[27] Tan, R.H.G., Ramachandaramurthy V.K. -„A Comprehensive Modeling and Simulation of Power Quality Disturbances Using MATLAB/SIMULINK”, Power Quality Issues in Distributed Generation. InTech, 2015.10.5772/61209]Search in Google Scholar
[[28] W. Long et al., “EMTP a powerful tool for analyzing power system transients,” IEEE Comput. Appl. Power, vol. 3, pp. 36–41, July 1990.10.1109/67.56581]Search in Google Scholar
[[29] Fried, S.O., Kharbawe, N. E., A. Edris, 2010. The use of static Compensator for improving power system stability in response to selective pole Switching, IEEE-ISGT Europe, pp. 1-6.10.1109/ISGTEUROPE.2010.5638894]Search in Google Scholar
[[30] Ghamgeen Izat Rashed, Yuanzhang Sun, Optimal Placement of Thyristor Controlled Series Compensation for Enhancing Power System Security Based on Computational Intelligence Techniques, Procedia Engineering, Vol. 15, pp. 908-914, 201110.1016/j.proeng.2011.08.168]Search in Google Scholar
[[31] Ghamgeen,I. Rashed, H. I. Shaheen, S. J. Cheng, 2007. Optimal location and parameter setting of TCSC by both Genetic Algorithm and Particle Swarm Optimization, IEEE conference on Industrial Electronics and Application, pp. 1141-1147.10.1109/ICIEA.2007.4318586]Search in Google Scholar
[[32] McGranaghan M, Roettger B (2002) Economic Evaluation of Power Quality, IEEE Power Engineering Review, 22: 8-12.10.1109/MPER.2002.981339]Search in Google Scholar
[[33] McGranaghan M, Santoso S (2007) Challenges and Trends in Analyses of Electric Power Quality Measurement Data, EURASIP Journal on Advances in Signal Processing.10.1155/2007/57985]Search in Google Scholar
[[34] McEachern A (2007) A Free Simulator Program for Teaching Power Quality Concepts, 9th International Conference Electrical Power Quality and Utilisation.10.1109/EPQU.2007.4424112]Search in Google Scholar
[[35] Bam L, Jewell W (2005) Review: Power System Analysis Software Tools, IEEE PES General Meeting 1: 139-144.]Search in Google Scholar
[[36] Guzman, A; Mooney, J. B; Benmouyal, G; Fischer, N. (2002), Transmission Line Protection System for Increasing Power System Requirements. 55th Annual Conference for Protective Relay Engineers, College Station, Texas, (April 2002).]Search in Google Scholar
[[37] Schoder K., ș.a. – „PAT: A Power Analysis Toolbox for MATLAB/Simulink”. IEEE Transactions on Power Systems 18, pag. 42-47, 2003.10.1109/TPWRS.2002.807117]Search in Google Scholar
[[38] E. Allen, N. LaWhite, Y. Yoon, J. Chapman, M. Ilić (Ilic), “Interactive object-oriented simulation of interconnected power systems using simulink”, IEEE Trans. Educ., vol. 44, pp. 87-95, Feb. 2001.10.1109/13.912714]Search in Google Scholar
[[39] K. Schoder, A. Hasanović (Hasanovic), A. Feliachi, “Load-flow and dynamic model of the Unified Power Flow Controller (UPFC) within the Power System Toolbox (PST)”, Proc. IEEE Midwest Symp. Circuits Syst., 2000.]Search in Google Scholar
[[40] K. Schoder, A. Hasanović (Hasanovic), A. Feliachi, “Power system damping using fuzzy controlled unified power flow controller”, Proc. IEEE Power Eng. Soc. Winter Meeting, 2001.]Search in Google Scholar
[[41] Bam L., Jewell W. – „Review: Power System Analysis Software Tools”, IEEE PES General Meeting 1, pag. 139-144, 2005.]Search in Google Scholar
[[42] Bhonsle D.C., Kelkar R.B. – „Simulation of Electric Arc Furnace Characteristics for Voltage Flicker Study using MATLAB”, International Conference on Recent Advancements in Electrical, Electronics and Control Engineering, pag. 174-181, 2011.10.1109/ICONRAEeCE.2011.6129773]Search in Google Scholar
[[43] Rahmatallah Hooshmand, Mahdi Banejad and Mahdi Torabian Esfahani, “A New Time Domain Model for Electric Arc Furnace”, Journal of Electrical Engineering, Vol. 59, No. 4, 195-202, 2008.]Search in Google Scholar
[[44] Mahdi Banejad, Rahmat-Allah Hooshmand and Mahdi Torabian Esfahani, “Exponential-Hyperbolic Model for Actual Operating conditions of Three Phase Arc Furnaces”, American Journal of Applied Scinces 6 (*): 1539-1547, 2009.10.3844/ajassp.2009.1539.1547]Search in Google Scholar
[[45] Abou El Ela, A.A., Abido, M.A., Spea, S.R. 2010. Optimal power flow using differential evolution algorithm, Electric Power Systems Research, Vol. 80, pp. 878–885.]Search in Google Scholar
[[46] Golkar M.A., Tavakoli Bina M., Meschi S. – „A Novel Method of Electrical Arc Furnace Modeling for Flicker Study”, International Conference on Renewable Energies and Power Quality, pag. 1-8, 2007.10.24084/repqj05.222]Search in Google Scholar
[[47] TongxinZheng, ElhamB.Makram, AdlyA.Girgis. “Effect of Different Arc Furnace Models on Voltage Distortion”, IEEE 1998.]Search in Google Scholar
[[48] Omer Ozgun, Ali Abur, “Development of an Arc Furnace Model for Power Quality Studies”, IEEE, 1999.]Search in Google Scholar
[[49] Omer Ozgun, Ali Abur, “Flicker Study Using a Novel Arc Furnace Model”, IEEE transaction on power delivery Vol.17, No.4, 2002.10.1109/TPWRD.2002.804013]Search in Google Scholar
[[50] Zheng T., Makram E. B. and Girgis A. A., “Effect of different arc furnace models on voltage distortion”, IEEE Transactions, International Conference on Harmonics and Quality of Power, 14-18 October 1998, Volume 2, pp. 1079-1085.]Search in Google Scholar
[[51] www.mathworks.com/matlabcentral/fileexchange/]Search in Google Scholar
