REVIEW ON THE IMPLEMENTATION OF PARTICLE SWARM OPTIMIZATION TECHNIQUE IN SOLVING THE HYDROTHERMAL SCHEDULING

Authors

  • S. Zaheer Department of Electrical Engineering, University of Engineering and Technology, Taxila. Pakistan
  • S. Haroon Department of Electrical Engineering, University of Engineering and Technology, Taxila. Pakistan
  • T. N. Malik Department of Electrical Engineering, University of Engineering and Technology, Taxila. Pakistan
  • I. Hashmi Department of Electrical Engineering, University of Engineering and Technology, Taxila. Pakistan

Abstract

Short term hydrothermal scheduling (STHTS) is a very complex, dynamic large-scale non-linear optimization problem. There are many algorithms and powerful optimization methods used to address this issue. Evolutionary algorithms have been effectively employed to obtain a global optimized solution of non linear problems like STHTS. Particle Swarm Optimization (PSO) is an evolutionary method. It can be successfully employed to get a best possible solution of STHTS problem due to its features of robustness, easy implementation and computational efficiency. Here the literature on the Particle Swarm Optimization method is collected and reviewed to sort out the STHTS problem. A review of most of the publications upto 2012 on this topic is given.

References

A.J. Wood and B.F. Wollenberg, Power

Generation Operation and Control, John

Wiley & Sons. New York (1996).

M. El-Hawary and G. Christensen,

International Journal of Control 16, (1972)

I. Farhat and M. El-Hawary, Electric Power

Systems Research 79 (2009) 1308.

Y.H. Song, Kluwer Academic Pub. 20 (1999).

J.A. Momoh, R. Adapa and M. El-Hawary,

IEEE Transactions on Power Systems 14

(1999) 96.

J. Momoh, Electric Power System

Applications of Optimization Marcel Dekker,

Inc. New York (2001).

S.S. Rao and S. Rao, Engineering

optimization: theory and practice, Wiley

(2009).

D.B. Fogel, IEEE Spectrum 37 (2000) 28.

V. Miranda, D. Srinivasan and L.M. Proenca,

International Journal of Electrical Power &

Energy Systems 20 (1998) 89.

R. Bansal, International Journal of Emerging

Electric Power Systems 2 (2011) 1.

R. Eberhart and J. Kennedy, A New

Optimizer Using Particle Swarm Theory,

IEEE Proceedings of the Sixth International

Symposium on Micro Machine and Human

Science 4 (1995) p.1942.

J. Kennedy and R. Eberhart, Particle Swarm

Optimization, IEEE International Conference

on Neural Networks (1995).

M. AlRashidi and M. El-Hawary, IEEE

Transactions on Evolutionary Computation

(2009) 913.

X. Wang and M. Zhang, Power System

Technology 12 (2004).

J. Chuanwen and E. Bompard, Energy

Conversion and Management 46 (2005)

S.P. Umayal and N. Kamaraj. Annual IEEE

(INDICON) (2005).

N. Sinha and L.L. Lai, Meta Heuristic Search

Algorithms for Short-Term Hydrothermal

Scheduling, IEEE International Conference

on Machine Learning and Cybernetics (2006)

S. Titus and A.E. Jeyakumar, International

Journal of Soft Computing 2 (2007) 313.

B. Yu, X. Yuan and J. Wang, Energy

Conversion and Management 48 (2007)

T.-Y. Lee, Energy Conversion and

Management 49 (2008) 751.

K.K. Mandal, M. Basu and N. Chakraborty,

Applied Soft Computing 8 (2008) 1392.

C. Samudi, IEEE Conference and Exposition

on Transmission and Distribution (2008).

J. Wu, J. Zhu, G. Chen and H. Zhang, IEEE

Transactions on Power Systems 23 (2008)

X. Yuan, L. Wang and Y. Yuan, Energy

Conversion and Management 49 (2008)

P.K. Hota, A.K. Barisal and R. Chakrabarti,

Electric Power Systems Research 79 (2009)

S. Liu and J. Wang, An Improved Self

Adaptive Particle Swarm Optimization

Approach for Short-Term Scheduling of

Hydro System, IEEE International Asia

Conference on Informatics in Control,

Automation and Robotics, CAR'09 (2009)

C. Po-Hung, Li-Ming, An Liu and C. Hung

Cheng, International Conference on Energy

and Environment Technology (2009).

A. Akbari Foroud and H.R. Soleymanpour.

th Iranian Conference on Electrical

Engineering (2010).

N. Amjady and H.R. Soleymanpour, Electric

Power Systems Research 80 (2010) 723.

S. Lu, C. Sun and Z. Lu, Energy Conversion

and Management 51 (2010) 561.

S. Singh, and N. Narang,

http://dspace.thapar.edu:8080/dspace/handle

/10266/1234 (2010).

C. Sun and S. Lu, Expert Systems with

Applications 37 (2010) 4232.

S. Thakur, C. Boonchay and W. Ongsakul.

IEEE Power and Energy Society General

Meeting (2010).

C. Wenping, Asia-Pacific Conference Power

and Energy Engineering (2010).

W. Chang, Energy and Power Engineering 2

(2010) 223.

K. Mandal and N. Chakraborty, Expert

Systems with Applications (2011).

K.K. Mandal and N. Chakraborty, Applied

Soft Computing 11 (2011) 1295.

K.K. Mandal and N. Chakraborty, Smart Grid

and Renewable Energy 2 (2011) 282.

S. Padmini and C.C.A. Rajan. International

Conference on Sustainable Energy and

Intelligent Systems (2011).

S. Padmini, C. Rajan and P. Murthy, Swarm,

Evolutionary and Memetic Computing (2011)

G. Sreenivasan, C. Saibabu and S.

Sivanagaraju, International Journal of

Advanced Computer Science and

Applications 2 (2011) 97.

Z. Jingrui, W. Jian and Y. Chaoyuan, IEEE

Transactions on Power Systems 27 (2012)

J. Sasikala and M. Ramaswamy, Electrical

Engineering (Archiv fur Elektrotechnik)

(2012) 1.

W. Ying et al., Expert Systems with

Applications 39 (2012) 2288.

Downloads

Published

13-03-2013

How to Cite

[1]
S. Zaheer, S. Haroon, T. N. Malik, and I. Hashmi, “REVIEW ON THE IMPLEMENTATION OF PARTICLE SWARM OPTIMIZATION TECHNIQUE IN SOLVING THE HYDROTHERMAL SCHEDULING”, The Nucleus, vol. 50, no. 1, pp. 13–19, Mar. 2013.

Issue

Vol. 50 No. 1 (2013)

Section

Articles

Most read articles by the same author(s)