PSS and SVC Controller Design by Chaos and PSO Algorithms to Enhancing the Power System Stability
this paper focuses on designing of PSS and SVC
controller based on chaos and PSO algorithms to improve the
stability of power system. Single machine infinite bus (SMIB) system
with SVC located at the terminal of generator has been considered to
evaluate the proposed controllers where both SVC and PSS have the
same controller. The coefficients of PSS and SVC controller have
been optimized by chaos and PSO algorithms. Finally the system
with proposed controllers has been simulated for the special
disturbance in input power of generator, and then the dynamic
responses of generator have been presented. The simulation results
showed that the system composed with recommended controller has
outstanding operation in fast damping of oscillations of power system.
[1] S. Sheetekela, K. Folly, and O. Malik, " Design and Implementation of
Power System Stabilizers based on Evolutionary Algorithms,"IEEE
conference , pp. 1-6, 2009.
[2] M.A. Abido, and Y.L. Abdel-Magid, " Coordinated design of a PSS and
an SVC-based controller to enhance power system stability,"
International journal of Electrical Power and Energy Systems, pp. 695-
704, 2003.
[3] A. Phiri, and KA Folly, " Application of Breeder GA to Power System
Controller Design,"IEEE conference , pp. 1-5, 2008.
[4] Wenxin Liu, Ganesh K, Venayagamoorthy, Donald C, and Wunsch I1, "
Adaptive Neural Network Based Power System Stabilizer Design,"IEEE
conference , pp. 2970-2975, 2003.
[5] S. Panda, "Multi-objective non-dominated shorting genetic algorithm-II
for excitation and TCSC-based controller design," journal of Electrical
Engineering,vol. 60, NO. 2, pp. 86-93, 2009.
[6] N. G. Hingoran and L. Gyugy," Understanding FACTS, Concepts and
Technology of Flexible AC Transmission System," New York: Inst.
Elect. Electron. Eng., Inc., 2000.
[7] N.G. Hingorani, "High power electronics and flexible AC transmission
system," IEEE Power Engineering review, july 1988.
[8] R. Jayabarathi, M .R Sindhu, N. Devarajan , and T. N. P. Nambiar,"
Development of a Laboratory Model of Hybrid Static Var
Compensator," IEEE conference, 2006.
[9] P.F. Puleston *, S.A. Gonza'lez, and F. Valenciaga," A STATCOM
based variable structure control for power system oscillations damping,"
International journal of Electrical Power and Energy Systems, pp. 241-
250, July 2006.
[10] Y.P. Wang, D.R. Hur, H.H. Chung, N.R. Watson, J. Arrillaga, S.S.
Matair," A Genetic Algorithms Aproach To Design Optimal PI
Controller For Static Var Compensator,"IEEE conference , pp. 1557-
1562, 2000.
[11] Tso SK, Liang J, Zeng QY, Lo KL, Zhou XX," Coordination of TCSC
and SVC for stability improvement of power systems,"Proceedings of
the fourth international conference on advances in power system control,
operation and mangement, pp. 371-376, November 1997.
[12] Padiyar KR, Varma RK," Damping torque analysis of static var system
controllers,"IEEE Trans Power Syst ,pp. 458-465,1991.
[13] Y.P. Wang, D.R. Hur, H.H. Chung, N.R. Watson, J. Arrillaga, S.S.
Matair," A Genetic Algorithms Aproach To Design Optimal PI
Controller For Static Var Compensator,"IEEE conference , pp. 1557-
1562, 2000.
[14] Su Wang, and Bo Meng, " Chaos Particle Swarm Optimization for
Resource Allocation Problem,"IEEE conference , pp. 464-467, 2007.
[15] L. Shengsong, W. Min and H. Zhijian, " Hybrid algorithm of chaos
optimisation and SLP for optimal power flow problems with multimodal
characteristic," IEE Proc.-Geneationr. Transmisoin. Distribution., Vol.
150, No. 5, September 2003.
[16] Shan Miyuan, Wu Juan, and Peng Danni, " Particle Swarm and Ant
Colony Algorithms Hybridized for Multi-mode Resource-constrained
Project Scheduling Problem with Minimum Time Lag,"IEEE
conference , pp5898-5902, 2007.
[17] L. Zhao, and Y. Yang, " PSO-based single multiplicative neuron model
for time series prediction," International journal of Expert Systems with
Applications, pp. 2805-2812, 2009.
[1] S. Sheetekela, K. Folly, and O. Malik, " Design and Implementation of
Power System Stabilizers based on Evolutionary Algorithms,"IEEE
conference , pp. 1-6, 2009.
[2] M.A. Abido, and Y.L. Abdel-Magid, " Coordinated design of a PSS and
an SVC-based controller to enhance power system stability,"
International journal of Electrical Power and Energy Systems, pp. 695-
704, 2003.
[3] A. Phiri, and KA Folly, " Application of Breeder GA to Power System
Controller Design,"IEEE conference , pp. 1-5, 2008.
[4] Wenxin Liu, Ganesh K, Venayagamoorthy, Donald C, and Wunsch I1, "
Adaptive Neural Network Based Power System Stabilizer Design,"IEEE
conference , pp. 2970-2975, 2003.
[5] S. Panda, "Multi-objective non-dominated shorting genetic algorithm-II
for excitation and TCSC-based controller design," journal of Electrical
Engineering,vol. 60, NO. 2, pp. 86-93, 2009.
[6] N. G. Hingoran and L. Gyugy," Understanding FACTS, Concepts and
Technology of Flexible AC Transmission System," New York: Inst.
Elect. Electron. Eng., Inc., 2000.
[7] N.G. Hingorani, "High power electronics and flexible AC transmission
system," IEEE Power Engineering review, july 1988.
[8] R. Jayabarathi, M .R Sindhu, N. Devarajan , and T. N. P. Nambiar,"
Development of a Laboratory Model of Hybrid Static Var
Compensator," IEEE conference, 2006.
[9] P.F. Puleston *, S.A. Gonza'lez, and F. Valenciaga," A STATCOM
based variable structure control for power system oscillations damping,"
International journal of Electrical Power and Energy Systems, pp. 241-
250, July 2006.
[10] Y.P. Wang, D.R. Hur, H.H. Chung, N.R. Watson, J. Arrillaga, S.S.
Matair," A Genetic Algorithms Aproach To Design Optimal PI
Controller For Static Var Compensator,"IEEE conference , pp. 1557-
1562, 2000.
[11] Tso SK, Liang J, Zeng QY, Lo KL, Zhou XX," Coordination of TCSC
and SVC for stability improvement of power systems,"Proceedings of
the fourth international conference on advances in power system control,
operation and mangement, pp. 371-376, November 1997.
[12] Padiyar KR, Varma RK," Damping torque analysis of static var system
controllers,"IEEE Trans Power Syst ,pp. 458-465,1991.
[13] Y.P. Wang, D.R. Hur, H.H. Chung, N.R. Watson, J. Arrillaga, S.S.
Matair," A Genetic Algorithms Aproach To Design Optimal PI
Controller For Static Var Compensator,"IEEE conference , pp. 1557-
1562, 2000.
[14] Su Wang, and Bo Meng, " Chaos Particle Swarm Optimization for
Resource Allocation Problem,"IEEE conference , pp. 464-467, 2007.
[15] L. Shengsong, W. Min and H. Zhijian, " Hybrid algorithm of chaos
optimisation and SLP for optimal power flow problems with multimodal
characteristic," IEE Proc.-Geneationr. Transmisoin. Distribution., Vol.
150, No. 5, September 2003.
[16] Shan Miyuan, Wu Juan, and Peng Danni, " Particle Swarm and Ant
Colony Algorithms Hybridized for Multi-mode Resource-constrained
Project Scheduling Problem with Minimum Time Lag,"IEEE
conference , pp5898-5902, 2007.
[17] L. Zhao, and Y. Yang, " PSO-based single multiplicative neuron model
for time series prediction," International journal of Expert Systems with
Applications, pp. 2805-2812, 2009.
@article{"International Journal of Electrical, Electronic and Communication Sciences:61264", author = "Saeed jalilzadeh and Mohammad Reza Safari Tirtashi and Mohsen Sadeghi", title = "PSS and SVC Controller Design by Chaos and PSO Algorithms to Enhancing the Power System Stability", abstract = "this paper focuses on designing of PSS and SVC
controller based on chaos and PSO algorithms to improve the
stability of power system. Single machine infinite bus (SMIB) system
with SVC located at the terminal of generator has been considered to
evaluate the proposed controllers where both SVC and PSS have the
same controller. The coefficients of PSS and SVC controller have
been optimized by chaos and PSO algorithms. Finally the system
with proposed controllers has been simulated for the special
disturbance in input power of generator, and then the dynamic
responses of generator have been presented. The simulation results
showed that the system composed with recommended controller has
outstanding operation in fast damping of oscillations of power system.", keywords = "PSS,CHAOS,PSO,Stability", volume = "4", number = "7", pages = "1076-5", }
