JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Hybrid Differential Evolution Technique for Economic Dispatch Problems
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Hybrid Differential Evolution Technique for Economic Dispatch Problems
Jayabarathi, T.; Ramesh, V.; Kothari, D. P.; Pavan, Kusuma; Thumbi, Mithun;
  PDF(new window)
 Abstract
This paper is aimed at presenting techniques of hybrid differential evolution for solving various kinds of Economic Dispatch(ED) problems such as those including prohibited zones, emission dispatch, multiple fuels, and multiple areas. The results obtained for typical problems are compared with those obtained by other techniques such as Particle Swarm Optimization(PSO) and Classical Evolutionary Programming(CEP) techniques. The comparison of the results proves that hybrid differential evolution is quite favorable for solving ED problems with no restrictions on the shapes of the input-output functions of the generator.
 Keywords
Combined Economic Emission Dispatch;Economic Dispatch;Hybrid Differential Evolution;Prohibited Zones;
 Language
English
 Cited by
1.
광-마이크로파 기반 유도플라즈마의 과도응답 특성에 관한 연구,왕설;최유순;박종구;김용갑;

전기학회논문지, 2009. vol.58. 6, pp.1174-1179
1.
Performance assessment of PSO, DE and hybrid PSO–DE algorithms when applied to the dispatch of generation and demand, International Journal of Electrical Power & Energy Systems, 2013, 47, 205  crossref(new windwow)
2.
Design of Time-Varying Rate Considering CO$_2$ Emission, IEEE Transactions on Smart Grid, 2013, 4, 1, 383  crossref(new windwow)
 References
1.
S.O. Orero, M.R. Irving, 'Economic Dispatch of Generators with Prohibited Operating Zones: a genetic algorithm approach', IEE Proceedings Gen., Transm., Distribut. 143 (6) (1996) 529-534

2.
Jayabarathi T., Sadhasivam G. and Ramachandran V. 'Evolutionary Programming Based Economic Dispatch of Generators with Prohibited Zones', Electric Power Systems Research, (1999) pp. 261-266

3.
Fred N. Lee and Arthur Breipohl 'Reserve Constrained Economic Dispatch with Prohibited Operating Zones', IEEE Transaction on Power Systems, Vol. 8, No. 1 (1993), pp. 246-253 crossref(new window)

4.
Fan J.Y. and McDonald J.D. 'A Practical Approach to Real Time Economic Dispatch Considering Unit's Operating Prohibited Zones', IEEE Transaction on Power Systems, Vol. 9, No. 4 (1994) pp. 1737-1743 crossref(new window)

5.
M. Sudhakaran, S.M.R. Sulochanal, R. Sreeram and N. Chandrasekhar 'Application of Refined Genetic Algorithm to Combined Economic and Emission Dispatch',IE(I) Journal (2004), pp. 115-119

6.
A. Immanuel Selva Kumar, K. Dhanushkodi, J. Jaya Kumar and Kumar Charlie Paul, 'Particle Swarm Optimization Solution to Emission and Economic Dispatch Problem, TENCON 2003, Conference on Convergent Technologies for Asia-Pacific Region. (2003), pp. 435-439

7.
D.N. Jeyakumar, T. Jayabarathi, T. Raghunathan 'Particle Swarm Optimization for Various Types of Economic Dispatch Problems' Electric Power and Energy Systems, 28 (2006), pp. 36-42 crossref(new window)

8.
M. Basu 'Economic Emission Dispatch through a Fast Computation Hopfield Method', IE(I) Journal EL(2002), pp. 65-69

9.
Kwang Y. Lee, Arthit Sode-Yome and June Ho Park, 'Adaptive Hopfield Neural Network for Economic Load Dispatch', IEEE Transaction on Power Systems (1998), pp. 519-525

10.
Rainer Storn and Kenneth Price, 'Minimizing the real functions of the ICEC'96 contest by Differential Evolution', IEEE International Conference on Evolutionary Computation (1996), pp. 842-844

11.
Chiou J.P. 'Variable scaling hybrid differential evolution for large-scale economic dispatch problems', Electric Power Systems Research 77 (2007), pp. 212-218 crossref(new window)

12.
Yung-Chien Lin, Feng-Sheng Wang and Kao-Shing Hwang, 'Co-evolutionary Hybrid Differential Evolution for Mixed-Integer Optimization Problems', Engineering Optimization, Vol. 00, 2001, pp. 1-20

13.
Chung-Fu Chang , Ji-Jen Wong , Ji-Pyng Chiou,Ching-Tzong Su, 'Robust Searching Hybrid Differential Evolution Method for Optimal Reactive power Planning in large-scale Distribution systems', Electric Power Systems Research, Vol. 77, 2007, pp. 430-437 crossref(new window)

14.
Feng-Sheng Wang and Horng-Jhy Jang 'Parameter Estimation of a Bio-reaction Model by Hybrid Differential Evolution', Evolutionary Computation (2000), Proceedings of the 2000 Congress, pp. 410-417

15.
Yung-Chien Lin, Kao-Shing Hwang and Feng-Sheng Wang, 'Plant Scheduling and Planning Using Mixed Integer Hybrid Differential Evolution with Multiplier Updating', IEEE Transaction on Power Systems (2000), pp. 593-600

16.
Yung-Chien Lin, Kao-Shing Hwang and Feng-Sheng Wang, 'Hybrid Differential Evolution with Multiplier Updating Method for Non-linear Constrained Optimization Problems', IEEE Transaction on Power Systems (2002), pp. 872-877

17.
Ching-Tzong Su and Chu-Sheng Lee, 'Network Reconfiguration of Distributed Systems Using Improved Mixed Integer Hybrid Differential Evolution', IEEE Transactions on Power Delivery (2003), pp. 1022-1027

18.
Ji-Pyng Chiou, Chung-Fu Chang and Ching-Tzong Su, 'Variable Scaling Hybrid Differential Evolution for Solving Network Reconfiguration of Distribution Systems' IEEE Transaction on Power Systems. Vol. 20. No. 2 (2006), pp. 668-674 crossref(new window)

19.
D.P. Kothari and I.J. Nagrath, 'Modern Power System Analysis', McGraw-Hill, New York, 2008

20.
Y.H. Song, G.S. Wang, P.V. Wang, A.T. Johns 'Environmental/Economic Dispatch Using Fuzzy Logic Controlled Genetic Algorithms' IEE Proc. Gen., Transm., Distribut. 144 (4) (1997), pp. 377-382 crossref(new window)

21.
Streifert Dan, 'Multi-area Economic Dispatch with Tie-line Constraints' IEEE Transaction on Power Systems (1995), pp. 1946-1951