Add to ORKGA full understanding of open-ended evolutionary dynamics remains elusive. While artificial life worlds have been pro-posed to study such dynamics and tests have been devised to try to detect them, no theory yet has enumerated the key con-ditions that are essential to inducing them. The aim of this paper is to further such an understanding by hypothesizing four conditions that are essential for open-ended evolution to prosper. Of course, any such conditions must be satisfied by nature (the clearest example of an open-ended domain), but we do not know the scope or range of possible worlds that could achieve similarly impressive results. To complement the hypothesized conditions, a new artificial life world called Chromaria is introduced that ...
Institute of Perception, Action and BehaviourThis work addresses the question: What are the basic de...
Nature's spectacular inventiveness, reflected in the enormous diversity of form and function display...
The project studies the evolution of some digital organisms in a simple world whose rules they learn...
A full understanding of open-ended evolutionary dynamics remains elusive. While artificial life worl...
A full understanding of open-ended evolutionary dynamics remains elusive. While artificial life worl...
How can we explain the explosion of diversity and complexity in the biosphere, from the emergence of...
Astrobiology reveals that Earth’s biosphere may be open to genetic input from elsewhere. How importa...
Evolution on Earth is widely considered to be an effectively endless process. Though this phenomenon...
This short article presents a discussion of the underlying conditions under which natural evolution ...
Because the kind of open-ended complexity explosion seen on Earth remains beyond the observed dynami...
Evolutionary algorithms are used to solve a number of optimization problems in the computer science....
Natural evolution keeps inventing new complex and intricate forms and behaviors. Digital evolution a...
Natural evolution keeps inventing new complex and intricate forms and behaviors. Digital evolution a...
Natural evolution keeps inventing new complex and intricate forms and behaviors. Digital evolution a...
Nature's spectacular inventiveness, reflected in the enormous diversity of form and function display...
Institute of Perception, Action and BehaviourThis work addresses the question: What are the basic de...
Nature's spectacular inventiveness, reflected in the enormous diversity of form and function display...
The project studies the evolution of some digital organisms in a simple world whose rules they learn...
A full understanding of open-ended evolutionary dynamics remains elusive. While artificial life worl...
A full understanding of open-ended evolutionary dynamics remains elusive. While artificial life worl...
How can we explain the explosion of diversity and complexity in the biosphere, from the emergence of...
Astrobiology reveals that Earth’s biosphere may be open to genetic input from elsewhere. How importa...
Evolution on Earth is widely considered to be an effectively endless process. Though this phenomenon...
This short article presents a discussion of the underlying conditions under which natural evolution ...
Because the kind of open-ended complexity explosion seen on Earth remains beyond the observed dynami...
Evolutionary algorithms are used to solve a number of optimization problems in the computer science....
Natural evolution keeps inventing new complex and intricate forms and behaviors. Digital evolution a...
Natural evolution keeps inventing new complex and intricate forms and behaviors. Digital evolution a...
Natural evolution keeps inventing new complex and intricate forms and behaviors. Digital evolution a...
Nature's spectacular inventiveness, reflected in the enormous diversity of form and function display...
Institute of Perception, Action and BehaviourThis work addresses the question: What are the basic de...
Nature's spectacular inventiveness, reflected in the enormous diversity of form and function display...
The project studies the evolution of some digital organisms in a simple world whose rules they learn...