Size fair and homologous crossover genetic operators for tree based genetic programming are described and tested. Both produce considerably reduced increases in program size (i.e. less bloat) and no detrimental effect on GP performance. GP search spaces are partitioned by the ridge in the number of program v. their size and depth. While search efficiency is little effected by initial conditions, these do strongly influence which half of the search space is searched. However a ramped uniform random initialisation is described which straddles the ridge. With subtree crossover trees increase about one level per generation leading to sub-quadratic bloat in program length
Abstract. Most of the Evolutionary Algorithms handling variable-sized structures, like Genetic Progr...
International audienceWe introduce a new recombination operator, the Maximum Homologous Crossover fo...
In recent years different genetic programming (GP) structures have emerged. Today, the basic forms ...
Size fair and homologous crossover genetic operators for tree based genetic programming are describe...
Size fair crossover genetic operator for tree based genetic programming is described and tested. It ...
Size fair and homologous crossover genetic operators for tree based genetic programming are describe...
We provide strong theoretical and experimental evidence that standard sub-tree crossover with unifor...
We provide strong theoretical and experimental evidence that standard sub-tree crossover with unifor...
Abstract- The Maximum Homologous Crossover at-tempts to preserve similar structures from parents by ...
Abstract. A series of simple biases to the selection of crossover points in tree-structured genetic ...
In this paper we study and compare the search properties of different crossover operators in genetic...
We provide strong theoretical and experimental evidence that standard sub-tree crossover with unifor...
This paper discusses and compares five major tree-generation algorithms for genetic programming, and...
Proceeding of: 12th European Conference, EuroGP 2009, Tübingen, Germany, April 15-17In Genetic Progr...
Abstract. We extend our analysis of repetitive patterns found in genetic programming genomes to tree...
Abstract. Most of the Evolutionary Algorithms handling variable-sized structures, like Genetic Progr...
International audienceWe introduce a new recombination operator, the Maximum Homologous Crossover fo...
In recent years different genetic programming (GP) structures have emerged. Today, the basic forms ...
Size fair and homologous crossover genetic operators for tree based genetic programming are describe...
Size fair crossover genetic operator for tree based genetic programming is described and tested. It ...
Size fair and homologous crossover genetic operators for tree based genetic programming are describe...
We provide strong theoretical and experimental evidence that standard sub-tree crossover with unifor...
We provide strong theoretical and experimental evidence that standard sub-tree crossover with unifor...
Abstract- The Maximum Homologous Crossover at-tempts to preserve similar structures from parents by ...
Abstract. A series of simple biases to the selection of crossover points in tree-structured genetic ...
In this paper we study and compare the search properties of different crossover operators in genetic...
We provide strong theoretical and experimental evidence that standard sub-tree crossover with unifor...
This paper discusses and compares five major tree-generation algorithms for genetic programming, and...
Proceeding of: 12th European Conference, EuroGP 2009, Tübingen, Germany, April 15-17In Genetic Progr...
Abstract. We extend our analysis of repetitive patterns found in genetic programming genomes to tree...
Abstract. Most of the Evolutionary Algorithms handling variable-sized structures, like Genetic Progr...
International audienceWe introduce a new recombination operator, the Maximum Homologous Crossover fo...
In recent years different genetic programming (GP) structures have emerged. Today, the basic forms ...