Add to ORKGIt is argued that competitive co-evolution is a viable methodology for developing truly autonomous and intelligent machines capable of setting their own goals in order to face new and continuously changing challenges. The paper starts giving an introduction to the dynamics of competitive co-evolutionary systems and reviews their relevance from a computational perspective. The method is then applied to two mobile robots, a predator and a prey, which quickly and autonomously develop efficient chase and evasion strategies. The results are then explained and put in a long-term framework resorting to a visualization of the Red Queen effect on the fitness landscape. Finally, comparative data on different selection criteria are used to indicate th...
Evolution in the context of genetic algorithms is driven by the fitness function. For some applicati...
Abstract. One of the main motivations for the use of competitive co-evolution systems is their abili...
Evolutionary Algorithms (EAs) have been applied in co-evolutionary robotics over the last quarter ce...
In the simplest scenario of two co-evolving populations in competition with each other, fitness prog...
A recent trend in evolutionary robotics and artificial life research is to maximize self-organizatio...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
In evolutionary robotics there has been research about the pursuit problem with different numbers of...
Abstract We have been investigating evolutionary methods to design behavioral strategies for intelli...
. Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has se...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
International audienceIn this paper, we investigate the benefits and drawbacks of different approach...
Abstract–Evolutionary Robotics (ER) employs population-based artificial evolution to develop behavio...
This research concerns the comparison of three different artificial evolution approaches for the des...
Evolution in the context of genetic algorithms is driven by the fitness function. For some applicati...
Abstract. One of the main motivations for the use of competitive co-evolution systems is their abili...
Evolutionary Algorithms (EAs) have been applied in co-evolutionary robotics over the last quarter ce...
In the simplest scenario of two co-evolving populations in competition with each other, fitness prog...
A recent trend in evolutionary robotics and artificial life research is to maximize self-organizatio...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
In evolutionary robotics there has been research about the pursuit problem with different numbers of...
Abstract We have been investigating evolutionary methods to design behavioral strategies for intelli...
. Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has se...
Co-evolution (i.e. the evolution of two or more competing populations with coupled fitness) has seve...
International audienceIn this paper, we investigate the benefits and drawbacks of different approach...
Abstract–Evolutionary Robotics (ER) employs population-based artificial evolution to develop behavio...
This research concerns the comparison of three different artificial evolution approaches for the des...
Evolution in the context of genetic algorithms is driven by the fitness function. For some applicati...
Abstract. One of the main motivations for the use of competitive co-evolution systems is their abili...
Evolutionary Algorithms (EAs) have been applied in co-evolutionary robotics over the last quarter ce...