Add to ORKGThe use of diploidy and dominance in genetic algorithms (GAs) has long been used to improve performance in time-varying optimization problems. Diploidy increases diversity in GAs by allowing recessive genes to survive in a population and become active at some later time when changes in the environment make them more desirable. This paper suggests an intuitive way to implement diploidy and presents some mathematical analyses of fitness proportional selection to justify its use in time-varying problems. An extension of the classical schema theorem for diploid GAs is presented. The mathematical analyses are geared towards the One Max problem, and assume a GA with selection and mutation only (no crossover). The analyses confirm that diploidy in...
The process of information exchange among the population of individuals manipulated by Genetic Algor...
3noIn this paper a method to increase the optimization ability of genetic algorithms (GAs) is propos...
AbstractMotivated by problems in conservation biology we study genetic dynamics in structured popula...
The use of diploidy and dominance in genetic algorithms (GAs) has long been used to improve performa...
Using diploidy and dominance is one method to enhance the performance of genetic algorithms in dynam...
This paper investigates the use of diploid structures and the possibility of using diploidy in non-s...
It is sometimes claimed that genetic algorithms using diploid representations will be more suitable ...
Using diploid representation with dominance scheme is one of the approaches developed for genetic al...
This paper proposes an adaptive dominance mechanism for diploidy genetic algorithms in dynamic envir...
Understanding the limits of predictability of biological evolution is a question of both practi-cal ...
The increased availability of time series genetic variation data from experimental evolution studies...
In order to study genetic algorithms in dynamic environments, we describe a stochastic finite popula...
In this paper, the study of diploidy is introduced like and important mechanism for memory reinforce...
Adaptive dynamics so far has been put on a rigorous footing only for clonal in-heritance. We extend ...
In this paper, the study of diploidy is introduced like and important mechanism for memory reinforce...
The process of information exchange among the population of individuals manipulated by Genetic Algor...
3noIn this paper a method to increase the optimization ability of genetic algorithms (GAs) is propos...
AbstractMotivated by problems in conservation biology we study genetic dynamics in structured popula...
The use of diploidy and dominance in genetic algorithms (GAs) has long been used to improve performa...
Using diploidy and dominance is one method to enhance the performance of genetic algorithms in dynam...
This paper investigates the use of diploid structures and the possibility of using diploidy in non-s...
It is sometimes claimed that genetic algorithms using diploid representations will be more suitable ...
Using diploid representation with dominance scheme is one of the approaches developed for genetic al...
This paper proposes an adaptive dominance mechanism for diploidy genetic algorithms in dynamic envir...
Understanding the limits of predictability of biological evolution is a question of both practi-cal ...
The increased availability of time series genetic variation data from experimental evolution studies...
In order to study genetic algorithms in dynamic environments, we describe a stochastic finite popula...
In this paper, the study of diploidy is introduced like and important mechanism for memory reinforce...
Adaptive dynamics so far has been put on a rigorous footing only for clonal in-heritance. We extend ...
In this paper, the study of diploidy is introduced like and important mechanism for memory reinforce...
The process of information exchange among the population of individuals manipulated by Genetic Algor...
3noIn this paper a method to increase the optimization ability of genetic algorithms (GAs) is propos...
AbstractMotivated by problems in conservation biology we study genetic dynamics in structured popula...