A genetic-based algorithm for optimal estimation of input–output curve parameters of thermal power plants
Author:
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Electrical and Electronic Engineering
Link
http://link.springer.com/content/pdf/10.1007/s00202-006-0047-x.pdf
Reference14 articles.
1. Chen HYK, Postel CE (1986) On-line parameter identification of input–output curves for thermal units. IEEE Trans Power Syst PWRS-1(2):221–224
2. Schweppe FC, Wildes J (1970) Power system static state estimation. IEEE Trans Power Appl Syst PAS-89:120–130
3. Soliman SA, Emam SA, Christensen GS (1991) Optimization of the optimal coefficients of non-monotonically increasing incremental cost curves. Electric Power Syst Res J 21:99–106
4. Soliman SA, Al-Kandari AM (1996) Kalman Filtering algorithm for on-line parameter identification of input–output curves for thermal units. In: 8th Mediterranean electrotechnical conference, (MELECON 1996) Italy, pp 1588–1593
5. EL-Hawary ME (2002) Bad data detection of unequal magnitudes in state estimation of power systems. Power Eng Lett IEEE Power Eng Rev 22(4):57–60
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