Environmental Engineering Reference
In-Depth Information
14. Munteanu I, Bacha S, Bratcu AI, Guiraud J, Roye D (2008) Energy-reliability optimization of
wind energy conversion systems by sliding mode control. IEEE Trans Energy Convers
23(3):975-985
15. Valenciaga F, Puleston PF (2008) Variable structure control of a wind energy conversion
system based on a brushless doubly fed reluctance generator. IEEE Trans Energy Convers
22(2):499-506
16. Beltran B, Ahmed-Ali T, Benbouzid MEH (2009) High-order sliding mode control of
variable speed wind turbines. IEEE Trans Ind Electron 56(9):3314-3321
17. Beltran B, Benbouzid MEH, Ahmed-Ali T (2012) Second-order sliding mode control of a
doubly
fed
induction
generator
driven
wind
turbine.
IEEE
Trans
Energy
Convers
27(2):261-269
18. Farza M, M'Saad M, Rossignol L (2004) Observer design for a class of MIMO nonlinear
systems. Automatica 40(1):135-143
19. Levant A, Alelishvili L (2007) Integral high-order sliding modes. IEEE Trans Autom Control
52(7):1278-1282
21. Manjock A (2005) Design codes FAST and ADAMS
for load calculations of onshore wind
turbines. Report No.72042, Germanischer Lloyd WindEnergie GmbH, Hamburg, Germany,
May 26, 2005
22. Cardenas R, Pena R, Alepuz S, Asher G (2013) Overview of control systems for the operation
of DFIGs in wind energy applications. IEEE Trans Ind Electron 60(7):2776-2798
23. Benbouzid MEH, Beltran B, Ezzat M, Breton S (2013) DFIG driven wind turbine grid fault-
tolerance using high-order sliding mode control. Int Rev Model Simul 6(1):29-32
