Evolutionary robot systems are usually affected by the properties of the environment indirectly through selection. In this paper, we present and investigate a system where the environment also has a direct effect—through regulation. We propose a novel robot encoding method where a genotype encodes multiple possible phenotypes, and the incarnation of a robot depends on the environmental conditions taking place in a determined moment of its life. This means that the morphology, controller, and behavior of a robot can change according to the environment. Importantly, this process of development can happen at any moment of a robot's lifetime, according to its experienced environmental stimuli. We provide an empirical proof-of-concept, and the a...
We developed a bio-inspired robot controller combining an artificial genome with an agent-based cont...
This research considers the task of evolving the physical structure of a robot to enhance its perfor...
This work has explored the adaptive potential of simulated swarm robots that contain a genomic encod...
The field of Evolutionary Robotics addresses the challenge of automatically designing robotic system...
The field of Evolutionary Robotics addresses the challenge of automatically designing robotic system...
The environment is one of the key factors in the emergence of intelligent creatures, but it has rece...
This paper studies the effects of changing environments on the evolution of bodies and brains of mod...
Contains fulltext : 54928.pdf (publisher's version ) (Open Access)Control structur...
In this paper an evolutionary method con-sisting of encoding a set of local adapta-tion rules that s...
A well-established fact in biology is that the environmental conditions have a paramount impact on t...
Control structures for physical robots can be evolved in simulated and physical environments. In thi...
Previous research has demonstrated that computational models of Gene Regulatory Networks (GRNs) can ...
<div><p>One of the important challenges in the field of evolutionary robotics is the development of ...
This paper is concerned with adaptation capabilities of evolved neural controllers. A method consist...
Evolutionary algorithms have previously been applied to the design of morphology and control of robo...
We developed a bio-inspired robot controller combining an artificial genome with an agent-based cont...
This research considers the task of evolving the physical structure of a robot to enhance its perfor...
This work has explored the adaptive potential of simulated swarm robots that contain a genomic encod...
The field of Evolutionary Robotics addresses the challenge of automatically designing robotic system...
The field of Evolutionary Robotics addresses the challenge of automatically designing robotic system...
The environment is one of the key factors in the emergence of intelligent creatures, but it has rece...
This paper studies the effects of changing environments on the evolution of bodies and brains of mod...
Contains fulltext : 54928.pdf (publisher's version ) (Open Access)Control structur...
In this paper an evolutionary method con-sisting of encoding a set of local adapta-tion rules that s...
A well-established fact in biology is that the environmental conditions have a paramount impact on t...
Control structures for physical robots can be evolved in simulated and physical environments. In thi...
Previous research has demonstrated that computational models of Gene Regulatory Networks (GRNs) can ...
<div><p>One of the important challenges in the field of evolutionary robotics is the development of ...
This paper is concerned with adaptation capabilities of evolved neural controllers. A method consist...
Evolutionary algorithms have previously been applied to the design of morphology and control of robo...
We developed a bio-inspired robot controller combining an artificial genome with an agent-based cont...
This research considers the task of evolving the physical structure of a robot to enhance its perfor...
This work has explored the adaptive potential of simulated swarm robots that contain a genomic encod...