Multi-Objective Optimization of Transmission Lines / Elektropārvades Līnijas Daudzkriteriālā Optimizācija

1. L΄Abbate, A., Migliavacca, G., Pagano, T., & Vafeas, A. (2011). Advanced transmission technologies in Europe: a roadmap towards the Smart Grid evolution. In:IEEE PowerTech Conf., 19-23 June, (pp. 1-8) Trondheim (Norway): IEEE. DOI: 10.1109/PTC.2011.601918610.1109/PTC.2011.6019186Search in Google Scholar

2. Dale A. Douglass. (2004) Practical Application of High-Temperature Low-Sag (HTLS)Transmission Conductors. New Haven (USA, Connecticut), p. 53.Search in Google Scholar

3. Ravi Gorur, Barzin Mobasher, & Robert Olsen. (2009). Characterization of Composite Cores for High Temperature-Low Sag (HTLS) conductors. Final project report. PSERC Publication 09-05. June, p. 52.Search in Google Scholar

4. Karimi Madahi, S. S., & Hassani, M. (2012). Optimal design of insulators using Artificial Neural Network (ANN). Journal of Basic and Applied Scientific Research, 2 (1), 60-64. Search in Google Scholar

5. Visweswara Rao, G. (1995). Optimum designs for transmission line towers. Computers& Structures, 57 (1), 81-92.Search in Google Scholar

6. Ekonomou, L., Iracleous, D. P., Gonos, I. F., & Stathopulos, I. A. (2006). An optimal design method for improving the lightning performance of overhead high voltage transmission lines. Electric Power Systems Research, 76, 493-499.10.1016/j.epsr.2005.06.011Search in Google Scholar

7. The special program “SAPR LEP 2011” description. Modern design System. [Online]. Available: http://www.bsapr.ru/prod/progs/element.php?ID=250 [in Russian].Search in Google Scholar

8. PLS-CADD™ (Power Line Systems - Computer Aided Design and Drafting). [Online]. Available: http://www.powline.com/products/pls_cadd.htmlSearch in Google Scholar

9. King Fahd University of Petroleum and Minerals: Chapter 7. Net Present Value and Other Investment Criteria. [Online]. Available: http://faculty.kfupm.edu.sa/FINEC/mfaraj/fin301/notes/Ch7.pdfSearch in Google Scholar

10. Chang, W.S., & Zinn, C.D. (1976). Minimization of the cost of an electrical transmission line system. IEEE Trans. PAS, 95 (4), 1091-1098.10.1109/T-PAS.1976.32201Search in Google Scholar

11. Grant, I.S., & Clayton, R.E. (1987). Transmission line optimization. IEEE Trans. Power Deliv., 2 (2), 520-526.10.1109/TPWRD.1987.4308136Search in Google Scholar

12. Kennon, R.E., & Douglass, D.A. (1990). EHV transmission line design opportunities for cost reduction. IEEE Trans. Power Deliv., 5 (2), 1145-1152.10.1109/61.53133Search in Google Scholar

13. Ekonomou, L., Fotis, G. P., & Maris, T. I. (2008). Cost related optimum design method for overhead high voltage transmission lines. Trans. Electr. Power, 18, 437-447.10.1002/etep.185Search in Google Scholar

14. Saied, M.M., Jaboori, M., & El-Nakid, D. (1990). On the optimal design of high voltage overhead transmission lines. J. Electr. Mach. Power Syst., 18 (3), 293-312.10.1080/07313569008909474Search in Google Scholar

15. Kjetil Bevanger, Gundula Bartzke, Henrik Brøseth, Espen Lie Dahl, Jan Ove Gjershaug, Frank Hanssen, Karl-Otto Jacobsen, Pål Kvaløy, Roel May, Roger Meås, Torgeir Nygård, Steinar Refsnæs, Sigbjørn Stokke, Jørn Thomassen. (2011). Optimal design and routing of power lines; ecological, technical and economic perspectives (OPTIPOL). Progress Report - NINA Report 762, p. 52.Search in Google Scholar

16. Neimane, V. (2001). On development planning of electricity distribution networks. Ph.D. thesis, Royal Inst. of Technology, Stockholm (Sweden).Search in Google Scholar

17. Lebesgue-Stieltjes integrals. [Online]. Available: http://www.math.sunysb.edu/~daryl/ls.pdfSearch in Google Scholar

18. János Fülöp. Introduction to Decision Making Methods. [Online]. Available: http://academic.evergreen.edu/projects/bdei/documents/decisionmakingmethods.pdfSearch in Google Scholar

19. Svetlana Beryozkina, Antans Sauhats, Edvins Vanzovichs. (19-23 June, 2011) Climate Conditions Impact on the Permissible Load Current of the Transmission Line. In: Proc. IEEE PowerTech Conf., 1-6. Trondheim (Norway): IEEE. DOI: 10.1109/PTC.2011.601925210.1109/PTC.2011.6019252Search in Google Scholar

20. Overhead electrical conductors: calculation methods for stranded bare conductors. IEC TR 1597, 1995.Search in Google Scholar

21. Мисриханов, М.Ш., Иостсон, Ю.А., Рубцова, Н.Б., & Токарский, А.Ю. The electromagnetic parameters of overhead power transmission lines. Certificate of official registration of computer software, No. 2006613744, Oct. 27, 2006. // Software for computers, databases and topology of integral microcircuits. Official Bulletin of the Federal Service of Intellectual Property, Patents and Trademarks, No. 1 (58). Мoscow: Federal Industrial Property Institute - 2007. [in Russian].Search in Google Scholar

22. ICF Consulting. (2002, Oct.). Unit Costs of constructing new transmission assets at 380kV within the European Union, Norway and Switzerland. Final Report. [Online]. Available: http://ec.europa.eu/energy/electricity/publications/doc/comp_cost_380kV_en.pdf Search in Google Scholar