The ability of organisms to evolve and adapt to the environment has provided mother nature with a rich and diverse set of species. Only organisms well adapted to their environment can survive from one generation to the next, transferring on the traits, that made them successful, to their offspring. Competition for resources and the ever changing environment drives some species to extinction and at the same time others evolve to maintain the delicate balance in nature. In this disertation we present the multi-niche crowding genetic algorithm, a computational metaphor to the survival of species in ecological niches in the face of competition. The multi-niche crowding genetic algorithm maintains stable subpopulations of solutions in multiple n...
A new evolutionary multi-objective crowding algorithm (EMOCA) is evaluated using nine benchmark mult...
The genetic algorithm technique known as crowding preserves population diversity by pairing each off...
This paper introduces a new technique called species conservation for evolving parallel subpopulatio...
Niche formation allows evolutionary algorithms to be used when the location and maintenance of multi...
Niche formation allows evolutionary algorithms to be used when the location and maintenance of multi...
Niching methods extend genetic algorithms to domains that require the location and maintenance of mu...
AbstractThe multi-niche crowding genetic algorithm (MNC GA) has demonstrated its ability to maintain...
International audienceThis paper considers a new method that enables a genetic algorithm (GA) to ide...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
242 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1997.We extend the above analysis ...
Over recent years, Genetic Algorithms have proven to be an appropriate tool for solving certain prob...
This thesis is concerned with using genetic algorithms to investigate ecological niche concepts. A G...
The genetic algorithm technique known as crowding preserves population diversity by pairing each off...
[Abstract] Over recent years, Genetic Algorithms have proven to be an appropriate tool for solving c...
We start this paper by an introduction to evolutionary algorithms and to their biological background...
A new evolutionary multi-objective crowding algorithm (EMOCA) is evaluated using nine benchmark mult...
The genetic algorithm technique known as crowding preserves population diversity by pairing each off...
This paper introduces a new technique called species conservation for evolving parallel subpopulatio...
Niche formation allows evolutionary algorithms to be used when the location and maintenance of multi...
Niche formation allows evolutionary algorithms to be used when the location and maintenance of multi...
Niching methods extend genetic algorithms to domains that require the location and maintenance of mu...
AbstractThe multi-niche crowding genetic algorithm (MNC GA) has demonstrated its ability to maintain...
International audienceThis paper considers a new method that enables a genetic algorithm (GA) to ide...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
242 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1997.We extend the above analysis ...
Over recent years, Genetic Algorithms have proven to be an appropriate tool for solving certain prob...
This thesis is concerned with using genetic algorithms to investigate ecological niche concepts. A G...
The genetic algorithm technique known as crowding preserves population diversity by pairing each off...
[Abstract] Over recent years, Genetic Algorithms have proven to be an appropriate tool for solving c...
We start this paper by an introduction to evolutionary algorithms and to their biological background...
A new evolutionary multi-objective crowding algorithm (EMOCA) is evaluated using nine benchmark mult...
The genetic algorithm technique known as crowding preserves population diversity by pairing each off...
This paper introduces a new technique called species conservation for evolving parallel subpopulatio...