This paper proposes an adaptive dominance mechanism for diploidy genetic algorithms in dynamic environments. In this scheme, the genotype to phenotype mapping in each gene locus is controlled by a dominance probability, which is learned adaptively during the searching progress and hence is adapted to the dynamic environment. Using a series of dynamic test problems, the proposed dominance scheme is compared to two other dominance schemes for diploidy genetic algorithms. The experimental results validate the efficiency of the proposed dominance learning scheme
The use of multiploid structures for individuals in evolutionary algorithms has been shown to have t...
Dynamic environments are still a big challenge for optimization algorithms. In this paper, a Genetic...
In this work, a new model based on dominant gene selection operator is proposed for the genetic algo...
Using diploid representation with dominance scheme is one of the approaches developed for genetic al...
Copyright @ 2006 YangThis paper proposes an adaptive dominance mechanism for diploidy genetic algori...
Using diploidy and dominance is one method to enhance the performance of genetic algorithms in dynam...
The use of diploidy and dominance in genetic algorithms (GAs) has long been used to improve performa...
It is sometimes claimed that genetic algorithms using diploid representations will be more suitable ...
Recently, there has been an increasing interest in applying genetic algorithms (GAs) in dynamic envi...
Recently, there has been an increasing interest in applying genetic algorithms (GAs) in dynamic envi...
The file attached to this record is the author's final peer reviewed version.This paper proposes a g...
In order to study genetic algorithms in dynamic environments, we describe a stochastic finite popula...
This paper investigates the use of diploid structures and the possibility of using diploidy in non-s...
Evolutionary algorithms have been widely used for stationary optimization problems. However, the env...
This paper proposes a general algorithm framework for solving dynamic sequence optimization problems...
The use of multiploid structures for individuals in evolutionary algorithms has been shown to have t...
Dynamic environments are still a big challenge for optimization algorithms. In this paper, a Genetic...
In this work, a new model based on dominant gene selection operator is proposed for the genetic algo...
Using diploid representation with dominance scheme is one of the approaches developed for genetic al...
Copyright @ 2006 YangThis paper proposes an adaptive dominance mechanism for diploidy genetic algori...
Using diploidy and dominance is one method to enhance the performance of genetic algorithms in dynam...
The use of diploidy and dominance in genetic algorithms (GAs) has long been used to improve performa...
It is sometimes claimed that genetic algorithms using diploid representations will be more suitable ...
Recently, there has been an increasing interest in applying genetic algorithms (GAs) in dynamic envi...
Recently, there has been an increasing interest in applying genetic algorithms (GAs) in dynamic envi...
The file attached to this record is the author's final peer reviewed version.This paper proposes a g...
In order to study genetic algorithms in dynamic environments, we describe a stochastic finite popula...
This paper investigates the use of diploid structures and the possibility of using diploidy in non-s...
Evolutionary algorithms have been widely used for stationary optimization problems. However, the env...
This paper proposes a general algorithm framework for solving dynamic sequence optimization problems...
The use of multiploid structures for individuals in evolutionary algorithms has been shown to have t...
Dynamic environments are still a big challenge for optimization algorithms. In this paper, a Genetic...
In this work, a new model based on dominant gene selection operator is proposed for the genetic algo...