论文信息 - Schema representation in virus-evolutionary genetic algorithm for knapsack problem

Schema representation in virus-evolutionary genetic algorithm for knapsack problem

This paper deals with a genetic algorithm based on virus theory of evolution (VE-GA). VE-GA simulates coevolution of a host population of candidate solutions and a virus population of substring representing schemata. In the coevolutionary process, the virus individuals propagate partial genetic information in the host population by virus infection operators. In this paper, we apply the proposed VE-GA to knapsack problems, and discuss the schema representation for solving the knapsack problem. Simulation results show that the virus infection explicitly uses effective schemata to search for optimal solutions, and the schema-based search can quickly increase the genotype frequency of effective schemata in the host population.

Naoyuki Kubota | T. Fukuda | T. Fukuda | N. Kubota

[1] Jan Paredis,et al. Coevolving Cellular Automata: Be Aware of the Red Queen! , 1997, ICGA.

[2] David E. Goldberg,et al. Genetic Algorithms in Search Optimization and Machine Learning , 1988 .

[3] Peter J. Angeline,et al. Competitive Environments Evolve Better Solutions for Complex Tasks , 1993, ICGA.

[4] Toshio Fukuda,et al. Trajectory planning of cellular manipulator system using virus-evolutionary genetic algorithm , 1996, Robotics Auton. Syst..

[5] N. Anderson. Evolutionary Significance of Virus Infection , 1970, Nature.

[6] W. Daniel Hillis,et al. Co-evolving parasites improve simulated evolution as an optimization procedure , 1990 .

[7] Toshio Fukuda,et al. The role of virus infection in virus-evolutionary genetic algorithm , 1996, Proceedings of IEEE International Conference on Evolutionary Computation.

[8] David B. Fogel,et al. Using fitness distributions to design more efficient evolutionary computations , 1996, Proceedings of IEEE International Conference on Evolutionary Computation.

[9] Joseph G. Ecker,et al. Introduction to Operations Research , 1988, The Mathematical Gazette.

[10] D. E. Goldberg,et al. Genetic Algorithm in Search , 1989 .