Genetic algorithms are integral to a range of applications. They utilise Darwin’s theory of evolution to find optimal solutions in large complex spaces such as engineering, to visualise the design space, Artificial Intelligence, for pattern classification, and financial modelling, improving predictions. Since the original Genetic Algorithm was developed, new theories have been proposed which are believed to be integral to the evolution of biological systems. However, genetic algorithm development has focused on mathematical or computational methods as the basis for improvements to the mechanisms, moving it away from its original evolutionary inspiration. There is a possibility that the new evolutionary mechanisms are vital to explain how bi...
Neo-Darwinism can be usefully studied with the help of a Computerised Genetic Algorithm. Only a math...
<p>Recent workers have argued that evolutionary theory is<br>incomplete, due to several unsolved pro...
Inspired by Darwin’s theory of natural selection to explain the diversity and adaptability of...
The Multi-Level Selection Genetic Algorithm (MLSGA) is shown to increase the performance of a simple...
Genetic algorithms (GAs) are population-based optimisation tools inspired by evolution and natural s...
This paper aims to improve the capability of genetic pro-gramming to tackle the evolution of coopera...
For more than two decades, genetic algorithms (GAs) have been studied by researchers from different ...
In my article The genetical theory of multilevel selection, I provided a synthesis of the theory of ...
The current state-of-the-art of genetic algorithms is dominated by high-performing specialistsolvers...
Evolutionary computation is a group of biologically inspired algorithms used to solve complex optimi...
A Genetic Algorithm (GA) is a form of complex system in which various structures interact via suffic...
Multilevel selection is an attempt to unify different approaches to the Level of selection problem. ...
A formalism for modelling the dynamics of genetic algorithms using methods from statistical physics,...
Evolutionary algorithms (EAs) simulate the natural evolution of species by iteratively applying evol...
In this project, I investigated whether the inclusion of frequency dependent selection in genetic al...
Neo-Darwinism can be usefully studied with the help of a Computerised Genetic Algorithm. Only a math...
<p>Recent workers have argued that evolutionary theory is<br>incomplete, due to several unsolved pro...
Inspired by Darwin’s theory of natural selection to explain the diversity and adaptability of...
The Multi-Level Selection Genetic Algorithm (MLSGA) is shown to increase the performance of a simple...
Genetic algorithms (GAs) are population-based optimisation tools inspired by evolution and natural s...
This paper aims to improve the capability of genetic pro-gramming to tackle the evolution of coopera...
For more than two decades, genetic algorithms (GAs) have been studied by researchers from different ...
In my article The genetical theory of multilevel selection, I provided a synthesis of the theory of ...
The current state-of-the-art of genetic algorithms is dominated by high-performing specialistsolvers...
Evolutionary computation is a group of biologically inspired algorithms used to solve complex optimi...
A Genetic Algorithm (GA) is a form of complex system in which various structures interact via suffic...
Multilevel selection is an attempt to unify different approaches to the Level of selection problem. ...
A formalism for modelling the dynamics of genetic algorithms using methods from statistical physics,...
Evolutionary algorithms (EAs) simulate the natural evolution of species by iteratively applying evol...
In this project, I investigated whether the inclusion of frequency dependent selection in genetic al...
Neo-Darwinism can be usefully studied with the help of a Computerised Genetic Algorithm. Only a math...
<p>Recent workers have argued that evolutionary theory is<br>incomplete, due to several unsolved pro...
Inspired by Darwin’s theory of natural selection to explain the diversity and adaptability of...