A New Improved Knowledge Based Cultural Algorithm for Reactive Power Planning
Author:
Publisher
Springer International Publishing
Link
http://link.springer.com/content/pdf/10.1007/978-3-319-03753-0_8
Reference24 articles.
1. Sachdeva, S.S., Billington, R.: Optimum network VAR planning by nonlinear programming. IEEE Trans Power Apparatus Systems, PAS-92, 1217–1225 (1973)
2. Quintana, V.H., Satos-nieto, M.: Reactive power dispatch by successive quadratic programming. IEEE Trans. Energy Convers 4(3), 425–435 (1989)
3. Aoki, K., Fan, M., Nishikori, A., Optimal, V.A.R.: planning by approximation method for recursive mixed integer linear programming. IEEE Trans. Power Systems 3(4), 1741–1747 (1988)
4. Deeb, N., Shahidehpour, S.M.: Linear reactive power optimization in a large power network using the decomposition approach. IEEE Trans. on Pwr. Syst. 5(2), 428–438 (1990)
5. Da Costa, G.R.M.: Optimal reactive dispatch through primal-dual method. IEEE Trans. on Power Systems 12(2), 669–674 (1997)
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