Ebrahim Rasooli ANARMARZI, Mohammad Reza FEYZI, Mehrdad Tarafdar HAGH

3914

Hierarchical fuzzy controller applied to multi-input power system stabilizer

This paper proposes the application of a hierarchical fuzzy system (HFS) based on multi-input power system stabilizer (MPSS) in multi-machine environment. The number of rules increases exponentially with the number of variables in a standard fuzzy system. This problem is solved in the proposed HFS method. In this method, the total number of rules increases only linearly with the number of input variables. HFS consists of a number of low-dimensional fuzzy systems in a hierarchical form. In the MPSS, the deviation of reactive power D Q is added to a D P+ D w input type Power System Stabilizer (PSS) to have better performance. The performances of MPSS and the proposed method in damping inter-area mode of oscillation are observed in response to disturbances. It is found that the proposed PSS is performing satisfactorily within the whole range of disturbances. This comparative study is demonstrated through digital simulations.
Anahtar Kelimeler:

Power system stabilizer (PSS), hierarchical fuzzy system (HFS), inter-area oscillation, fuzzy logic controllers, damping

Hierarchical fuzzy controller applied to multi-input power system stabilizer

This paper proposes the application of a hierarchical fuzzy system (HFS) based on multi-input power system stabilizer (MPSS) in multi-machine environment. The number of rules increases exponentially with the number of variables in a standard fuzzy system. This problem is solved in the proposed HFS method. In this method, the total number of rules increases only linearly with the number of input variables. HFS consists of a number of low-dimensional fuzzy systems in a hierarchical form. In the MPSS, the deviation of reactive power D Q is added to a D P+ D w input type Power System Stabilizer (PSS) to have better performance. The performances of MPSS and the proposed method in damping inter-area mode of oscillation are observed in response to disturbances. It is found that the proposed PSS is performing satisfactorily within the whole range of disturbances. This comparative study is demonstrated through digital simulations.
Keywords:

Power system stabilizer (PSS), hierarchical fuzzy system (HFS), inter-area oscillation, fuzzy logic controllers, damping,

PDF

___

  • P. M. Anderson, A. A. Fouad, ”Power system control and stability”, Iowa State University Press, Ames, Iowa, 1977.
  • M. Gonzalez, O. P. Malik, ”Power system stabilizer design using an online adaptive neurofuzzy controller with adaptive input link weights”, IEEE Trans. Energy Convers. Vol. 23, No. 3, pp. 914-922, Sep. 2008.
  • D. E. Kvasov, D. Menniti, A. Pinnarelli, Y. D. Sergeyev, N. Sorrentino, ”Tuning fuzzy power-system stabilizers in multi-machine systems by global optimization algorithms based on efficient domain partitions”, Elsevier, Electric Power Systems Research, . Vol. 78, pp. 1217-1229, Jan. 2008.
  • Y. Kitauchi, H. Taniguchi, T. Shirasaki, Y. Ichikawa, M. Amano , M. Banjo, “Experimental veriŞcation of multi- input PSS with reactive power input for damping low frequency power swing”, IEEE Trans. Energy Convers. Vol. , No. 4, pp. 1124-1130, Dec 1999.
  • M. Ozaki, M. Mizutani, ”A design method of multi-input PSS using high speed genetic algorithm ”, IEEE. Power System Technology, Vol. 3, pp. 1287-1291, 2000.
  • H. Kikuchi, A. Otake, S. Nakanishi, ”Functional completeness of hierarchical fuzzy modeling”, Information Science, Vol. 110, No. 1-2, pp. 51-60. Sept. 1998.
  • M. Lee, H. Chung, F. Yu, ”Modeling of hierarchical fuzzy systems”, Elsevier, Fuzzy Sets and Systems, Vol. 138, pp. 343-361, 2003.
  • R. Hammell, T. Sudkamp, ”Adaptivity in a hierarchical fuzzy model”, IEEE. Annual Conference of the North American Fuzzy Information Processing Society, pp. 151-156, 1995.
  • C. France, L. Richard, ”Designing a hierarchical fuzzy logic controller using the differential evolution approach”, Elsevier, Applied Soft Computing, Vol. 7, pp. 481-491, 2007.
  • E. Rasooli Anarmarzi, M. Reza Feyzi, M Tarafdar Hagh, ” Improvement of Multi-Input Power System Stabilizer With Fuzzy”, 23’rd Intl. Power System Conf., PSC2008, Iran, Tehran, paper No. 98-F-PSS-0235, in Farsi.
  • H. A. Toliyat, J. Sadeh, R. Ghazi, “Design of augmented fuzzy logic power system stabilizers to enhance power systems stability”, IEEE Trans. Energy Convers. Vol. 11, pp. 97–103, March 1996.
  • T. Ross, “Fuzzy logic with engineering applications”, McGraw-Hill International Editions, Electrical Engineering Series, 1997.
  • G. Raju, J. Zhou, R. Kisner, ”Hierarchical fuzzy control”, International Journal of Control, vol. 54, pp. 1201–1216, Nov. 1991.
  • L. Wang, ”Analysis and design of hierarchical fuzzy systems”, IEEE Trans. Fuzzy System, Vol. 7, pp. 617-624, Oct. H. Li, S. Tso, ”Higher order fuzzy control structure for higher order or time-delay systems”, IEEE Trans. Fuzzy System, Vol. 7, pp. 540-552, Oct. 1999.
  • P. Kundur, “Power system stability and control”, McGraw-Hill, New York, 1994.
  • Recommended practice for excitation system models for power system stability studies, IEEE standard 421.5-1992; August, 1992.
  • P. Mitra, S. Chowdhury, S. P. Chowdhury, S . K. Pal, R. N. Lahiri, Y. H. Song, ”Performance of A Fuzzy Power System Stabilizer With Tie Line Active Power Deviation Feedback”, IEEE PSCE, pp. 884-889, Oct. 2006. Appendix
  • Table 3. Generator data. No. of Gen Param. Type Capacity (MVA) Voltage (kV) Xd (pu) X’d (pu) X”d (pu) Xq (pu) X’q (pu) X”q (pu) H (sec) T’d0 (sec) T”d0 (sec) T’q0 (sec) T”q0 (sec) G3,G4 Steam 8 3 25 7 55 25 175 03 4 05 05 Table 4. Load data. Param. No. of Bus Table 5. Load data. Input Parameter KP SS T (sec) T1(sec) T2(sec) T3(sec) T4(sec) 06 4 4 Transmission lines data: Vbase=230 kV, Sbase=100 MVA R=0.0001 pu/km , X=0.001 pu/km , BC=0.00175 pu/km AVR Data: A= 200, TA=0.001 sec
Turkish Journal of Electrical Engineering and Computer Science-Cover
  • ISSN: 1300-0632
  • Yayın Aralığı: Yılda 6 Sayı
  • Yayıncı: TÜBİTAK
Arşiv
Sayıdaki Diğer Makaleler

A small scale education experiment kit with wind generator-PEM electrolyser system and modelling

Özcan ATLAM

A robust method for state estimation of power system with UPFC

Mehrdad Tarafdar HAGH, Mehdi Ahmadi JIRDEHI

Active illumination and appearance model for face alignment

Fatih KAHRAMAN, Muhittin GÖKMEN -, Sune DARKNER, Rasmus LARSEN

Programmable design and implementation of a chaotic system utilizing multiple nonlinear functions

Recai KILIÇ, Fatma YILDIRIM DALKIRAN

Corrective action planning considering FACTS allocation and optimal load shedding using bacterial foraging oriented by particle swarm optimization algorithm

Rahmat Allah HOOSHMAND, Mostafa Ezatabadi POUR

Fault detection and identification for voltage sag state estimation in power systems

Jamal BEIZA, Seyed Hossein HOSSEINIAN, Behrooz VAHIDI

A novel method for lung segmentation on chest CT images: complex-valued artificial neural network with complex wavelet transform

Murat CEYLAN, Yüksel ÖZBAY, O. Nuri UÇAN, Erkan YILDIRIM

Hierarchical fuzzy controller applied to multi-input power system stabilizer

Ebrahim Rasooli ANARMARZI, Mohammad Reza FEYZI, Mehrdad Tarafdar HAGH

The analysis of a semiconductor single asymmetric and symmetric step-index laser for even and odd fields by alpha method

Mustafa TEMİZ, Mehmet ÜNAL

New approach FPGA-based implementation of discontinuous SVPWM}

Tole SUTIKNO, Auzani JIDIN, Nik Rumzi Nik IDRIS