Memory-based immigrants for genetic algorithms in dynamic environments

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

Memory-based immigrants for genetic algorithms in dynamic environments

Full text

Pdf (215 KB)

Source

Genetic And Evolutionary Computation Conference archive
Proceedings of the 2005 conference on Genetic and evolutionary computation table of contents

Washington DC, USA

SESSION: Genetic algorithms table of contents

Pages: 1115 - 1122

Year of Publication: 2005

ISBN:1-59593-010-8

Author

Shengxiang Yang

University of Leicester, Leicester, UK

Sponsors

SIGEVO: ACM Special Interest Group on Genetic and Evolutionary Computation
ACM: Association for Computing Machinery

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 10, Downloads (12 Months): 79, Citation Count: 3

Additional Information:

abstract references cited by index terms collaborative colleagues

Tools and Actions:	Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/1068009.1068196 What is a DOI?

ABSTRACT

Investigating and enhancing the performance of genetic algorithms in dynamic environments have attracted a growing interest from the community of genetic algorithms in recent years. This trend reflects the fact that many real world problems are actually dynamic, which poses serious challenge to traditional genetic algorithms. Several approaches have been developed into genetic algorithms for dynamic optimization problems. Among these approches, random immigrants and memory schemes have shown to be beneficial in many dynamic problems. This paper proposes a hybrid memory and random immigrants scheme for genetic algorithms in dynamic environments. In the hybrid scheme, the best solution in memory is retrieved and acts as the base to create random immigrants to replace the worst individuals in the population. In this way, not only can diversity be maintained but it is done more efficiently to adapt the genetic algorithm to the changing environment. The experimental results based on a series of systematically constructed dynamic problems show that the proposed memory-based immigrants scheme efficiently improves the performance of genetic algorithms in dynamic environments.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	C. N. Bendtsen and T. Krink. Dynamic memory model for non-stationary optimization. In Proc. of the 2002 Congress on Evol. Comput., pages 145--150, 2002.
	2	J. Branke. Memory enhanced evolutionary algorithms for changing optimization problems. In Proc. of the 1999 Congress on Evolutionary Computation, volume 3, pages 1875--1882, 1999.
	3	Jurgen Branke, Evolutionary Optimization in Dynamic Environments, Kluwer Academic Publishers, Norwell, MA, 1920
	4	J. Branke, T. Kauβler, C. Schmidth, and H. Schmeck. A multi-population approach to dynamic optimization problems. In Proc. of the Adaptive Computing in Design and Manufacturing, pages 299--308, 2000.
	5	Helen G. Cobb , John J. Grefenstette, Genetic Algorithms for Tracking Changing Environments, Proceedings of the 5th International Conference on Genetic Algorithms, p.523-530, June 01, 1993
	6	D. Dasgupta and D. McGregor. Nonstationary function optimization using the structured genetic algorithm. In R. Männer and B. Manderick, editors, Proc. of the 2nd Int. Conf. on Parallel Problem Solving from Nature, pages 145--154, 1992.
	7	David E. Goldberg , Robert E. Smith, Nonstationary function optimization using genetic algorithm with dominance and diploidy, Proceedings of the Second International Conference on Genetic Algorithms on Genetic algorithms and their application, p.59-68, October 1987, Cambridge, Massachusetts, United States
	8	J. J. Grefenstette. Genetic algorithms for changing environments. In R. Männer and B. Manderick, editors, Proc. of the 2nd Int. Conf. on Parallel Problem Solving from Nature, pages 137--144, 1992.
	9	Jonathan Lewis , Emma Hart , Graeme Ritchie, A Comparison of Dominance Mechanisms and Simple Mutation on Non-stationary Problems, Proceedings of the 5th International Conference on Parallel Problem Solving from Nature, p.139-148, September 27-30, 1998
	10	S. J. Louis and Z. Xu. Genetic algorithms for open shop scheduling and re-scheduling. In Proc. of the 11th ISCA Int. Conf. on Computers and their Applications, pages 99--102, 1996.
	11	H. K. N. Mori and Y. Nishikawa. Adaptation to changing environments by means of the memory based thermodynamical genetic algorithm. In Proc. of the 7th Int. Conf. on Genetic Algorithms, pages 299--306. Morgan Kaufmann Publishers, 1997.
	12	Khim Peow Ng , Kok Cheong Wong, A New Diploid Scheme and Dominance Change Mechanism for Non-Stationary Function Optimization, Proceedings of the 6th International Conference on Genetic Algorithms, p.159-166, July 15-19, 1995
	13	Connie Loggia Ramsey , John J. Grefenstette, Case-Based Initialization of Genetic Algorithms, Proceedings of the 5th International Conference on Genetic Algorithms, p.84-91, June 01, 1993
	14	K. Trojanowski and Z. Michalewicz. Searching for optima in non-stationary environments. In Proc. of the 1999 Congress on Evolutionary Computation, pages 1843--1850, 1999.
	15	Frank Vavak , Terence C. Fogarty, A Comparative Study of Steady State and Generational Genetic Algorithms, Selected Papers from AISB Workshop on Evolutionary Computing, p.297-304, April 01-02, 1996
	16	S. Yang. Non-stationary problem optimization using the primal-dual genetic algorithm, In Proc. of the 2003 Congress on Evol. Comput., Vol. 3, pages 2246--2253, 2003.
	17	Shengxiang Yang , Xin Yao, Experimental study on population-based incremental learning algorithms for dynamic optimization problems, Soft Computing - A Fusion of Foundations, Methodologies and Applications, v.9 n.11, p.815-834, November 2005 [doi>10.1007/s00500-004-0422-3]

CITED BY 4

	Shengxiang Yang , Jürgen Branke, Evolutionary algorithms for dynamic optimization problems: workshop preface, Proceedings of the 2005 workshops on Genetic and evolutionary computation, June 25-26, 2005, Washington, D.C.
	Shengxiang Yang, A comparative study of immune system based genetic algorithms in dynamic environments, Proceedings of the 8th annual conference on Genetic and evolutionary computation, July 08-12, 2006, Seattle, Washington, USA
	Shengxiang Yang, Genetic algorithms with memory-and elitism-based immigrants in dynamic environments, Evolutionary Computation, v.16 n.3, p.385-416, Fall 2008
	Daniele Miorandi , Lidia Yamamoto, Evolutionary and embryogenic approaches to autonomic systems, Proceedings of the 3rd International Conference on Performance Evaluation Methodologies and Tools, October 20-24, 2008, Athens, Greece