T. Ackermann, Wind Power in Power System, 2nd Edition, U.K.: John Wiley & Sons, Ltd, 2012.
S. E. Lee, D.-J. Won and I.-Y. Chung, “Operation scheme for a wind farm to mitigate output power variation,” J. Elect. Eng. Technol, vol. 7, no. 6, pp. 869–875, Nov. 2012.
O. Anaya-lara, N. Jenkins, J. Ekanayake, P. Cartwright, and M. Hughes, Wind Energy Generation Modeling and Control, U.K.: John Wiley & Sons, Ltd, 2009.
J. Ekanayake and N. Jenkins, “Comparison of the response of doubly fed and fixed-speed induction generator wind turbine to changes in network frequency,” IEEE Trans. Energy Convers., vol. 19, no. 4, pp. 800–802, Dec. 2004.
J. Morren, J. Pierik, and S. W. H. de Haan, “Inertial response of variable speed wind turbines,” Electric Power Systems Research, vol. 76, no. 1, pp. 980–987, Dec. 2006.
J. Morren, S. Haan, W. L. Kling, and J. A. Ferreira, “Wind turbines emulating inertia and supporting primary frequency control,” IEEE Trans. Power Syst., vol. 21, no. 1, pp. 433–434, Feb. 2006.
H. Lee, J. Kim, D. Hur, and Y. C. Kang, “Inertial control of a DFIG-based wind power plant using the maximum rate of change of frequency and the frequency deviation,” J. Elect. Eng. Technol, vol. 10, no.2, pp. 496–503, Mar. 2015.
J. Lee, J. Kim, Y.-H. Kim, Y.-H. Chun, S.-H. Lee, J.-K. Seok, and Y. C. Kang, “Rotor speed-based droop of a wind generator in a wind power plant for the virtual inertial control,” J. Elect. Eng. Technol, vol. 8, no. 5, pp. 742–749, Sep. 2013.
M. Hwang, Y.-H. Chun, J.-W. Park, and Y.C. Kang, “Dynamic Droop-based Inertial Control of a Wind Power Plant,” J. Elect. Eng. Technol, vol. 10, no. 3, pp. 1363–1369, May 2015.
N. R. Ullah, T. Thiringer, and D. Karlsson, “Temporary primary frequency control support by variable speed wind turbines — Potential and applications,” IEEE Trans. Power Syst., vol. 23, no. 2, pp. 601–612, May 2008.
G. Tarnowski, P. Kjaer, P.Sørensen, and J. Østergaard, “Variable speed wind turbines capability for temporary over-production,” in Proc. IEEE PES General Meeting 2009, Calgary, Canada, pp. 1–7, Jul. 2009.
M. Juelsgaard, J. Bendtsen, and R. Wisniewski, “Utilization of wind turbines for upregulation of power grids,” IEEE Trans. on Ind. Electron., vol. 60, no. 7, pp. 2851–2863, Jul. 2013.
A. D. Hansen, M. Altin, I. D. Margaris, F. Iov, and G. C. Tarnowski, “Analysis of the short-term overproduction capability of variable speed wind turbines,” Renewable Energy, vol. 68, pp. 326–336, Mar. 2014.
S. E. Itani, U. Annakkage, and G. Joos “Short-term frequency support utilizing inertial response of DFIG wind turbines,” in Proc. 2011 IEEE Power & Energy Society General Meeting, Detroit, USA, Jul. 2011.
F. Hafiz and A. Abdennour, “Optimal use of kinetic energy for the inertial support from variable speed wind turbines,” Renewable Energy, vol. 80, pp. 629–643, Mar. 2015.
IEEE Committee Report, "Dynamic models for steam and hydro turbines in power system studies," IEEE Trans. Power App. Syst., vol. PAS-92, no. 6, pp. 1904-1915, Nov. 1973.
V. Ajjarapu, J. D. McCalley, D. Rover, Z. Wang, and Z. Wu, “Novel sensorless generator control and grid fault ride-through strategies for variable-speed wind turbines and implementation on a new real-time simulation platform,” Ph.D. dissertation, Dept. Elect. Eng., Iowa State Univ., Ames, Iowa, 2010.