Book Chapters

MLA
Ise, Toshifumi, and Hassan Bevrani. “Virtual synchronous generators and their applications in microgrids.” Integration of Distributed Energy Resources in Power Systems. Academic Press, 2016. 282-294.
APA
Ise, T., & Bevrani, H. (2016). Virtual synchronous generators and their applications in microgrids. In Integration of Distributed Energy Resources in Power Systems (pp. 282-294). Academic Press.
Chicago
Ise, Toshifumi, and Hassan Bevrani. “Virtual synchronous generators and their applications in microgrids.” In Integration of Distributed Energy Resources in Power Systems, pp. 282-294. Academic Press, 2016.
Harvard
Ise, T. and Bevrani, H., 2016. Virtual synchronous generators and their applications in microgrids. In Integration of Distributed Energy Resources in Power Systems (pp. 282-294). Academic Press.
Vancouver
Ise T, Bevrani H. Virtual synchronous generators and their applications in microgrids. InIntegration of Distributed Energy Resources in Power Systems 2016 Jan 1 (pp. 282-294). Academic Press.
BibTeX
@incollection{ise2016virtual,
title={Virtual synchronous generators and their applications in microgrids},
author={Ise, Toshifumi and Bevrani, Hassan},
booktitle={Integration of Distributed Energy Resources in Power Systems},
pages={282–294},
year={2016},
publisher={Elsevier}
}
MLA
Babahajyani, P., F. Habibi, and H. Bevrani. “An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study.” Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications. IGI Global, 2014. 589-616.
APA
Babahajyani, P., Habibi, F., & Bevrani, H. (2014). An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study. In Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications (pp. 589-616). IGI Global.
Chicago
Babahajyani, P., F. Habibi, and H. Bevrani. “An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study.” In Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications, pp. 589-616. IGI Global, 2014.
Harvard
Babahajyani, P., Habibi, F. and Bevrani, H., 2014. An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study. In Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications (pp. 589-616). IGI Global.
Vancouver
Babahajyani P, Habibi F, Bevrani H. An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study. InHandbook of research on novel soft computing intelligent algorithms: Theory and practical applications 2014 (pp. 589-616). IGI Global.
BibTeX
@incollection{babahajyani2014line,
title={An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study},
author={Babahajyani, P and Habibi, F and Bevrani, H},
booktitle={Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications},
pages={589–616},
year={2014},
publisher={IGI Global}
}
MLA
Tikdari, A. G., Hassan Bevrani, and Gerard Ledwich. “A descriptive approach for power system stability and security assessment.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 293-314.
APA
Tikdari, A. G., Bevrani, H., & Ledwich, G. (2012). A descriptive approach for power system stability and security assessment. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 293-314). IGI Global.
Chicago
Tikdari, A. G., Hassan Bevrani, and Gerard Ledwich. “A descriptive approach for power system stability and security assessment.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 293-314. IGI Global, 2012.
Harvard
Tikdari, A.G., Bevrani, H. and Ledwich, G., 2012. A descriptive approach for power system stability and security assessment. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 293-314). IGI Global.
Vancouver
Tikdari AG, Bevrani H, Ledwich G. A descriptive approach for power system stability and security assessment. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 293-314). IGI Global.
BibTeX
@incollection{tikdari2012descriptive,
title={A descriptive approach for power system stability and security assessment},
author={Tikdari, AG and Bevrani, Hassan and Ledwich, Gerard},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={293–314},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
APA
Bevrani, H., & Beaty, H. W. (2013). Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, 138-59.
Chicago
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
Harvard
Bevrani, H. and Beaty, H.W., 2013. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, pp.138-59.
Vancouver
Bevrani H, Beaty HW. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill. 2013:138-59.
BibTeX
@article{bevrani2013automatic,
title={Automatic generation control},
author={Bevrani, H and Beaty, H Wayne},
journal={Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill},
pages={138–59},
year={2013}
}
MLA
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” Meta-heuristics optimization algorithms in engineering, business, economics, and finance. IGI Global, 2013. 357-385.
APA
Bevrani, H., Habibi, F., & Shokoohi, S. (2013). ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Chicago
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” In Meta-heuristics optimization algorithms in engineering, business, economics, and finance, pp. 357-385. IGI Global, 2013.
Harvard
Bevrani, H., Habibi, F. and Shokoohi, S., 2013. ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Vancouver
Bevrani H, Habibi F, Shokoohi S. ANN-based self-tuning frequency control design for an isolated microgrid. InMeta-heuristics optimization algorithms in engineering, business, economics, and finance 2013 (pp. 357-385). IGI Global.
BibTeX
@incollection{bevrani2013ann,
title={ANN-based self-tuning frequency control design for an isolated microgrid},
author={Bevrani, H and Habibi, F and Shokoohi, S},
booktitle={Meta-heuristics optimization algorithms in engineering, business, economics, and finance},
pages={357–385},
year={2013},
publisher={IGI Global}
}
MLA
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 198-219.
APA
Saleh, M., & Bevrani, H. (2012). Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Chicago
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 198-219. IGI Global, 2012.
Harvard
Saleh, M. and Bevrani, H., 2012. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Vancouver
Saleh M, Bevrani H. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 198-219). IGI Global.
BibTeX
@incollection{saleh2012dynamic,
title={Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study},
author={Saleh, Mohammad and Bevrani, Hassan},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={198–219},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 198-219.
APA
Saleh, M., & Bevrani, H. (2012). Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Chicago
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 198-219. IGI Global, 2012.
Harvard
Saleh, M. and Bevrani, H., 2012. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Vancouver
Saleh M, Bevrani H. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 198-219). IGI Global.
BibTeX
@incollection{saleh2012dynamic,
title={Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study},
author={Saleh, Mohammad and Bevrani, Hassan},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={198–219},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” Meta-heuristics optimization algorithms in engineering, business, economics, and finance. IGI Global, 2013. 357-385.
APA
Bevrani, H., Habibi, F., & Shokoohi, S. (2013). ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Chicago
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” In Meta-heuristics optimization algorithms in engineering, business, economics, and finance, pp. 357-385. IGI Global, 2013.
Harvard
Bevrani, H., Habibi, F. and Shokoohi, S., 2013. ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Vancouver
Bevrani H, Habibi F, Shokoohi S. ANN-based self-tuning frequency control design for an isolated microgrid. InMeta-heuristics optimization algorithms in engineering, business, economics, and finance 2013 (pp. 357-385). IGI Global.
BibTeX
@incollection{bevrani2013ann,
title={ANN-based self-tuning frequency control design for an isolated microgrid},
author={Bevrani, H and Habibi, F and Shokoohi, S},
booktitle={Meta-heuristics optimization algorithms in engineering, business, economics, and finance},
pages={357–385},
year={2013},
publisher={IGI Global}
}
MLA
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 198-219.
APA
Saleh, M., & Bevrani, H. (2012). Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Chicago
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 198-219. IGI Global, 2012.
Harvard
Saleh, M. and Bevrani, H., 2012. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Vancouver
Saleh M, Bevrani H. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 198-219). IGI Global.
BibTeX
@incollection{saleh2012dynamic,
title={Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study},
author={Saleh, Mohammad and Bevrani, Hassan},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={198–219},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
APA
Bevrani, H., & Beaty, H. W. (2013). Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, 138-59.
Chicago
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
Harvard
Bevrani, H. and Beaty, H.W., 2013. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, pp.138-59.
Vancouver
Bevrani H, Beaty HW. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill. 2013:138-59.
BibTeX
@article{bevrani2013automatic,
title={Automatic generation control},
author={Bevrani, H and Beaty, H Wayne},
journal={Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill},
pages={138–59},
year={2013}
}
MLA
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” Meta-heuristics optimization algorithms in engineering, business, economics, and finance. IGI Global, 2013. 357-385.
APA
Bevrani, H., Habibi, F., & Shokoohi, S. (2013). ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Chicago
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” In Meta-heuristics optimization algorithms in engineering, business, economics, and finance, pp. 357-385. IGI Global, 2013.
Harvard
Bevrani, H., Habibi, F. and Shokoohi, S., 2013. ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Vancouver
Bevrani H, Habibi F, Shokoohi S. ANN-based self-tuning frequency control design for an isolated microgrid. InMeta-heuristics optimization algorithms in engineering, business, economics, and finance 2013 (pp. 357-385). IGI Global.
BibTeX
@incollection{bevrani2013ann,
title={ANN-based self-tuning frequency control design for an isolated microgrid},
author={Bevrani, H and Habibi, F and Shokoohi, S},
booktitle={Meta-heuristics optimization algorithms in engineering, business, economics, and finance},
pages={357–385},
year={2013},
publisher={IGI Global}
}
MLA
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 198-219.
APA
Saleh, M., & Bevrani, H. (2012). Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Chicago
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 198-219. IGI Global, 2012.
Harvard
Saleh, M. and Bevrani, H., 2012. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Vancouver
Saleh M, Bevrani H. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 198-219). IGI Global.
BibTeX
@incollection{saleh2012dynamic,
title={Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study},
author={Saleh, Mohammad and Bevrani, Hassan},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={198–219},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Tikdari, A. G., Hassan Bevrani, and Gerard Ledwich. “A descriptive approach for power system stability and security assessment.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 293-314.
APA
Tikdari, A. G., Bevrani, H., & Ledwich, G. (2012). A descriptive approach for power system stability and security assessment. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 293-314). IGI Global.
Chicago
Tikdari, A. G., Hassan Bevrani, and Gerard Ledwich. “A descriptive approach for power system stability and security assessment.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 293-314. IGI Global, 2012.
Harvard
Tikdari, A.G., Bevrani, H. and Ledwich, G., 2012. A descriptive approach for power system stability and security assessment. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 293-314). IGI Global.
Vancouver
Tikdari AG, Bevrani H, Ledwich G. A descriptive approach for power system stability and security assessment. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 293-314). IGI Global.
BibTeX
@incollection{tikdari2012descriptive,
title={A descriptive approach for power system stability and security assessment},
author={Tikdari, AG and Bevrani, Hassan and Ledwich, Gerard},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={293–314},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
APA
Bevrani, H., & Beaty, H. W. (2013). Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, 138-59.
Chicago
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
Harvard
Bevrani, H. and Beaty, H.W., 2013. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, pp.138-59.
Vancouver
Bevrani H, Beaty HW. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill. 2013:138-59.
BibTeX
@article{bevrani2013automatic,
title={Automatic generation control},
author={Bevrani, H and Beaty, H Wayne},
journal={Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill},
pages={138–59},
year={2013}
}
MLA
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” Meta-heuristics optimization algorithms in engineering, business, economics, and finance. IGI Global, 2013. 357-385.
APA
Bevrani, H., Habibi, F., & Shokoohi, S. (2013). ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Chicago
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” In Meta-heuristics optimization algorithms in engineering, business, economics, and finance, pp. 357-385. IGI Global, 2013.
Harvard
Bevrani, H., Habibi, F. and Shokoohi, S., 2013. ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Vancouver
Bevrani H, Habibi F, Shokoohi S. ANN-based self-tuning frequency control design for an isolated microgrid. InMeta-heuristics optimization algorithms in engineering, business, economics, and finance 2013 (pp. 357-385). IGI Global.
BibTeX
@incollection{bevrani2013ann,
title={ANN-based self-tuning frequency control design for an isolated microgrid},
author={Bevrani, H and Habibi, F and Shokoohi, S},
booktitle={Meta-heuristics optimization algorithms in engineering, business, economics, and finance},
pages={357–385},
year={2013},
publisher={IGI Global}
}
MLA
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 198-219.
APA
Saleh, M., & Bevrani, H. (2012). Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Chicago
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 198-219. IGI Global, 2012.
Harvard
Saleh, M. and Bevrani, H., 2012. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Vancouver
Saleh M, Bevrani H. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 198-219). IGI Global.
BibTeX
@incollection{saleh2012dynamic,
title={Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study},
author={Saleh, Mohammad and Bevrani, Hassan},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={198–219},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}
MLA
Babahajyani, P., F. Habibi, and H. Bevrani. “An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study.” Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications. IGI Global, 2014. 589-616.
APA
Babahajyani, P., Habibi, F., & Bevrani, H. (2014). An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study. In Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications (pp. 589-616). IGI Global.
Chicago
Babahajyani, P., F. Habibi, and H. Bevrani. “An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study.” In Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications, pp. 589-616. IGI Global, 2014.
Harvard
Babahajyani, P., Habibi, F. and Bevrani, H., 2014. An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study. In Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications (pp. 589-616). IGI Global.
Vancouver
Babahajyani P, Habibi F, Bevrani H. An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study. InHandbook of research on novel soft computing intelligent algorithms: Theory and practical applications 2014 (pp. 589-616). IGI Global.
BibTeX
@incollection{babahajyani2014line,
title={An on-line pso-based fuzzy logic tuning approach: Microgrid frequency control case study},
author={Babahajyani, P and Habibi, F and Bevrani, H},
booktitle={Handbook of research on novel soft computing intelligent algorithms: Theory and practical applications},
pages={589–616},
year={2014},
publisher={IGI Global}
}
MLA
Tikdari, A. G., Hassan Bevrani, and Gerard Ledwich. “A descriptive approach for power system stability and security assessment.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 293-314.
APA
Tikdari, A. G., Bevrani, H., & Ledwich, G. (2012). A descriptive approach for power system stability and security assessment. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 293-314). IGI Global.
Chicago
Tikdari, A. G., Hassan Bevrani, and Gerard Ledwich. “A descriptive approach for power system stability and security assessment.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 293-314. IGI Global, 2012.
Harvard
Tikdari, A.G., Bevrani, H. and Ledwich, G., 2012. A descriptive approach for power system stability and security assessment. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 293-314). IGI Global.
Vancouver
Tikdari AG, Bevrani H, Ledwich G. A descriptive approach for power system stability and security assessment. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 293-314). IGI Global.
BibTeX
@incollection{tikdari2012descriptive,
title={A descriptive approach for power system stability and security assessment},
author={Tikdari, AG and Bevrani, Hassan and Ledwich, Gerard},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={293–314},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
APA
Bevrani, H., & Beaty, H. W. (2013). Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, 138-59.
Chicago
Bevrani, H., and H. Wayne Beaty. “Automatic generation control.” Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill (2013): 138-59.
Harvard
Bevrani, H. and Beaty, H.W., 2013. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill, pp.138-59.
Vancouver
Bevrani H, Beaty HW. Automatic generation control. Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill. 2013:138-59.
BibTeX
@article{bevrani2013automatic,
title={Automatic generation control},
author={Bevrani, H and Beaty, H Wayne},
journal={Standard handbook for electrical engineers, 16th ed. USA: McGraw-Hill},
pages={138–59},
year={2013}
}
MLA
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” Meta-heuristics optimization algorithms in engineering, business, economics, and finance. IGI Global, 2013. 357-385.
APA
Bevrani, H., Habibi, F., & Shokoohi, S. (2013). ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Chicago
Bevrani, H., F. Habibi, and S. Shokoohi. “ANN-based self-tuning frequency control design for an isolated microgrid.” In Meta-heuristics optimization algorithms in engineering, business, economics, and finance, pp. 357-385. IGI Global, 2013.
Harvard
Bevrani, H., Habibi, F. and Shokoohi, S., 2013. ANN-based self-tuning frequency control design for an isolated microgrid. In Meta-heuristics optimization algorithms in engineering, business, economics, and finance (pp. 357-385). IGI Global.
Vancouver
Bevrani H, Habibi F, Shokoohi S. ANN-based self-tuning frequency control design for an isolated microgrid. InMeta-heuristics optimization algorithms in engineering, business, economics, and finance 2013 (pp. 357-385). IGI Global.
BibTeX
@incollection{bevrani2013ann,
title={ANN-based self-tuning frequency control design for an isolated microgrid},
author={Bevrani, H and Habibi, F and Shokoohi, S},
booktitle={Meta-heuristics optimization algorithms in engineering, business, economics, and finance},
pages={357–385},
year={2013},
publisher={IGI Global}
}
MLA
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” Innovation in Power, Control, and Optimization: Emerging Energy Technologies. IGI Global, 2012. 198-219.
APA
Saleh, M., & Bevrani, H. (2012). Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Chicago
Saleh, Mohammad, and Hassan Bevrani. “Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study.” In Innovation in Power, Control, and Optimization: Emerging Energy Technologies, pp. 198-219. IGI Global, 2012.
Harvard
Saleh, M. and Bevrani, H., 2012. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. In Innovation in Power, Control, and Optimization: Emerging Energy Technologies (pp. 198-219). IGI Global.
Vancouver
Saleh M, Bevrani H. Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study. InInnovation in Power, Control, and Optimization: Emerging Energy Technologies 2012 (pp. 198-219). IGI Global.
BibTeX
@incollection{saleh2012dynamic,
title={Dynamic Analysis and Stability Improvement Concerning the Integration of Wind Farms Kurdistan Electric Network Case Study},
author={Saleh, Mohammad and Bevrani, Hassan},
booktitle={Innovation in Power, Control, and Optimization: Emerging Energy Technologies},
pages={198–219},
year={2012},
publisher={IGI Global}
}
MLA
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
APA
Bevrani, H., & Bevrani, H. (2011). PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, 167.
Chicago
Bevrani, Hassan, and Hossein Bevrani. “PID tuning: robust and intelligent multi-objective approaches.” Advances in PID Control (2011): 167.
Harvard
Bevrani, H. and Bevrani, H., 2011. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control, p.167.
Vancouver
Bevrani H, Bevrani H. PID tuning: robust and intelligent multi-objective approaches. Advances in PID Control. 2011 Sep 6:167.
BibTeX
@article{bevrani2011pid,
title={PID tuning: robust and intelligent multi-objective approaches},
author={Bevrani, Hassan and Bevrani, Hossein},
journal={Advances in PID Control},
pages={167},
year={2011}
}
MLA
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” Wind Power Systems. Springer, Berlin, Heidelberg, 2010. 215-254.
APA
Bevrani, H., & Tikdari, A. G. (2010). An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Chicago
Bevrani, H., and A. G. Tikdari. “An ANN-based power system emergency control scheme in the presence of high wind power penetration.” In Wind Power Systems, pp. 215-254. Springer, Berlin, Heidelberg, 2010.
Harvard
Bevrani, H. and Tikdari, A.G., 2010. An ANN-based power system emergency control scheme in the presence of high wind power penetration. In Wind Power Systems (pp. 215-254). Springer, Berlin, Heidelberg.
Vancouver
Bevrani H, Tikdari AG. An ANN-based power system emergency control scheme in the presence of high wind power penetration. InWind Power Systems 2010 (pp. 215-254). Springer, Berlin, Heidelberg.
BibTeX
@incollection{bevrani2010ann,
title={An ANN-based power system emergency control scheme in the presence of high wind power penetration},
author={Bevrani, H and Tikdari, AG},
booktitle={Wind Power Systems},
pages={215–254},
year={2010},
publisher={Springer}
}