References:
[1]
Jae-Hyung Kim, Jun-Gu Kim, Young-Hyok Ji, Yong-Chae Jung, and Chung-Yuen Won, , An Islanding Detection Method for a Grid-Connected System Based on the Goertzel Algorithm, IEEE Trans. on Power Electronics, Vol.26, No.4, pp.1049-1055, APRIL 2011.
[2]
Soma Biswas, Swapan Kumar Goswami, Amitava Chatterjee. “Optimum Distributed Generation Placement with Voltage Sag Effect Minimization”, Energy Conversion and Management, Vol.53, Issue.1, pp.163–174, January 2012.
[3]
Farid Hashemi, Noradin Ghadimi, Behrooz Sobhani, “Islanding Detection for Inverter-based DG Coupled with Using an Adaptive Neuro-fuzzy Inference System”, Electrical Power and Energy Systems, Vol.45, pp.443–455, 2013.
[4]
M.R. Banaei, E. Salary, “Application of Multi-stage Converter in Distributed Generation Systems”, Energy Conversion and Management, Vol.62, pp.76–83, October 2012.
[5]
B. Indu Rani, M. Srikanth, G. Saravana Ilango, C. Nagamani, “An Active Islanding Detection Technique for Current Controlled Inverter”, Renewable Energy, Vol.51, pp.189-196, 2013.
[6]
Behrooz Bahrani, Houshang Karimi, Reza Iravani, ”Nondetection Zone Assessment of an Active Islanding Detection Method and its Experimental Evaluation”, IEEE Trans. on Power Delivery, Vol.26, No.2, pp.517-525, April 2011.
[7]
Mak ST, “A new method of generating TWACS type outbound signals for communication on power distribution networks”, IEEE Trans. Power App. Syst., PAS-103, No.8, pp.2134–40, 1984.
[8]
Xu W, Zhang G, Li C, Wang W, Wang G, Kliber J, “A power line signaling based technique for anti-islanding protection of distributed generators—Part I: scheme and analysis”, [a companion paper submitted for review].
[9]
Hua Geng, Dewei (David) Xu, BinWu, Geng Yang,” Active Islanding Detection for Inverter-Based Distributed Generation Systems With Power Control Interface”, IEEE Trans. on Energy Conversion, Vol.26, No.4, pp.1063-1072, Dec. 2011.
[10]
Jun Zhang, Dehong Xu, Guoqiao Shen, Ye Zhu, Ning He, Jie Ma, “An Improved Islanding Detection Method for a Grid-Connected Inverter With Intermittent Bilateral Reactive Power Variation”, IEEE Trans. on Power Electronics, Vol.28, No.1, pp.268-278, Jan. 2013.
[11]
H. H. Zeineldin, and M. M. A. Salama, “Impact of Load Frequency Dependence on the NDZ and Performance of the SFS Islanding Detection Method”, IEEE Trans. on Industrial Electronics, Vol.58, No.1, pp.139-146, Jan. 2011.
[12]
John V, Ye Z, Kolwalkar A., “Investigation of Anti Islanding Protection of Power Converter Based Distributed Generators Using Frequency Domain Analysis”, IEEE Trans. on Power Electronic,Vol.19, Iss.5, pp.1177-1183, 2004.
[13]
J.A. Laghari, H. Mokhlis, A.H.A. Bakar, M. Karimi, “A New Islanding Detection Technique for Multiple Mini Hydro Based
International Journal of Smart Electrical Engineering, Vol.2, No.4, Fall 2013 ISSN: 2251-9246
EISSN: 2345-6221
216
on Rate of Change of Reactive Power and Load Connecting Strategy”, Energy Conversion and Management, Vol.76, pp.215–224, Dec. 2013.
[14]
Hernández-González G, Iravani R., “Current Injection for Active Islanding Detection of Electronically-Interfaced Distributed Resources, IEEE Trans. On Power Deliv., Vol.21, Iss.3, pp.1698e705, 2006.
[15]
David Díaz Reigosa, Fernando Briz, Cristian Blanco Charro, Pablo García, Juan Manuel Guerrero, “Active Islanding Detection Using High-Frequency Signal Injection”, IEEE Trans. on Industry App., Vol.48, No.5, pp.1588 -1597, Sep./Oct., 2012.
[16]
Wen-Jung Chiang, Hurng-Liahng Jou b, Jinn-Chang Wu,, Active Islanding Detection Method for Inverter-based Distribution Generation Power System”, Electrical Power and Energy Systems, Vol.42, pp.158–166, 2012.
[17]
H.-L. Jou, W.-J. Chiang and J.-C. Wu, “Virtual Inductor-based Islanding Detection Method for Grid-connected Power Inverter of Distributed Power Generation System”, IET Renew. Power Gener., Vol.1, No.3, pp.175-181, Sep. 2007.
[18]
David Velasco, C´esar Trujillo, Gabriel Garcer´a, Emilio Figueres, “An Active Anti-Islanding Method Based on Phase-PLL Perturbation”, IEEE Trans. on Power Electronics, Vol.26, No.4, pp.1056-1066, Apr. 2011.
[19]
K. Jae-Hyung, K. Jun-Gu, J. Young-Hyok, J. Yong-Chae, and W. Chung- Yuen, “An Islanding Detection Method for a Grid-connected System Based on the Goertzel Algorithm”, IEEE Trans. Power Electron., Vol.26, No.4, pp.1049–1055, Apr. 2011.
[20]
H. Guo-Kiang, C. Chih-Chang, and C. Chern-Lin, “Automatic Phase-shift Method for Islanding Detection of Grid-connected Photovoltaic Inverters”, IEEE Trans. Energy Convers., Vol.18, No.1, pp.169–173, Mar. 2003.
[21]
M. Roop, “Design issues for grid-connected photovoltaic system”, Ph.D. dissertation, Sch. of Electr. and Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, 1998.
[22]
Kazemi Karegar H, Shataee A., “Islanding Detection of Wind Farms by Thd. IEEE Conf. DRPT2008 Nanjing China, pp.2793-2797, Apr. 2008.
[23]
Walmir Freitas, Zhenyu Huang, Wilsun Xu, “A Practical Method for Assessing the Effectiveness of Vector Surge Relays for Distributed Generation Applications”, IEEE Trans. on Power Delivery, Vol.20, No.1, pp.57-63, Jan. 2005.
[24]
Ankita Samui, S. R. Samantaray, “Assessment of ROCPAD Relay for Islanding Detection in Distributed Generation”, IEEE Trans. on Smart Grid, Vol.2, No.2, pp.391-398, JUNE 2011.
[25]
H. Kazemi Karegar, B. Sobhani, “Wavelet Transform Method for Islanding Detection of Wind Turbines”, Renewable Energy, Vol.38, pp.94-106, 2012.
[26]
Prakash K. Ray, NandKishor, Soumya R. Mohanty, “Islanding and Power Quality Disturbance Detection in Grid Connected Hybrid Power System Using Wavelet and S-Transform”, IEEE Trans. on Smart Grid, Vol.3, No.3, pp.1082-1094, Sep. 2012.
