Whether, when, how, and why increased complexity evolves in biological populations is a longstanding open question. In this work we combine a recently developed method for evolving virtual organisms with an information-theoretic metric of morphological complexity in order to investigate how the complexity of morphologies, which are evolved for locomotion, varies across different environments. We first demonstrate that selection for locomotion results in the evolution of organisms with morphologies that increase in complexity over evolutionary time beyond what would be expected due to random chance. This provides evidence that the increase in complexity observed is a result of a driven rather than a passive trend. In subsequent experiments w...
International audienceABSTRACT: BACKGROUND: The emergence of organismal complexity has been a diffic...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
Whether, when, how, and why increased complexity evolves in biological populations is a longstanding...
The evolutionary cost of morphological complexity in biological populations remains an open question...
The principles of embodied cognition dictate that intelligent behavior must arise out of the coupled...
According to the principles of embodied cognition, intelli-gent behavior must arise out of the coupl...
Abstract Background The emergence of organismal complexity has been a difficult subject for research...
This study investigates the impact of imposing a cost on morphological complexity given co-adapting ...
An unsolved problem in both natural and artificial evolutionary systems is determining the exact env...
The evolution of life on earth has been characterized by generalized long-term increases in phenotyp...
The impact of the environment on evolving increasingly complex morphologies (bodies) and controllers...
An open question for both natural and artificial evolutionary systems is how, and under what environ...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
What is the relationship between the complexity and the fitness of evolved organisms, whether natura...
International audienceABSTRACT: BACKGROUND: The emergence of organismal complexity has been a diffic...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
Whether, when, how, and why increased complexity evolves in biological populations is a longstanding...
The evolutionary cost of morphological complexity in biological populations remains an open question...
The principles of embodied cognition dictate that intelligent behavior must arise out of the coupled...
According to the principles of embodied cognition, intelli-gent behavior must arise out of the coupl...
Abstract Background The emergence of organismal complexity has been a difficult subject for research...
This study investigates the impact of imposing a cost on morphological complexity given co-adapting ...
An unsolved problem in both natural and artificial evolutionary systems is determining the exact env...
The evolution of life on earth has been characterized by generalized long-term increases in phenotyp...
The impact of the environment on evolving increasingly complex morphologies (bodies) and controllers...
An open question for both natural and artificial evolutionary systems is how, and under what environ...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
What is the relationship between the complexity and the fitness of evolved organisms, whether natura...
International audienceABSTRACT: BACKGROUND: The emergence of organismal complexity has been a diffic...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...