A well-established fact in biology is that the environmental conditions have a paramount impact on the evolved life forms. In this paper we investigate this in an evolutionary robot system where morphologies and controllers evolve together. We evolve robots for two tasks independently and simultaneously and compare the outcomes. The results show that the robots evolved for multiple tasks simultaneously developed new morphologies that were not present in the robots evolved for single tasks independently
The field of evolutionary robotics uses principles of natural evolution to design robots. In this pa...
Designing robots by hand can be costly and time consuming, especially if the robots have to be creat...
Designing robots by hand is often both costly and time consuming. In order to create robots automati...
A well-established fact in biology is that the environmental conditions have a paramount impact on t...
In evolution, the evolutionary success of individuals is influenced in equal parts by the environmen...
According to the principles of embodied cognition, intelli-gent behavior must arise out of the coupl...
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...
Whether, when, how, and why increased complexity evolves in biological populations is a longstanding...
Artificial evolution of robot behavior is commonly conducted in environments containing a single rob...
We investigate an evolutionary robot system where (simulated) modular robots can reproduce and creat...
One key challenge in Evolutionary Robotics (ER) is to evolve morphology and controllers of robots. M...
Evolutionary robot systems are usually affected by the properties of the environment indirectly thro...
AbstractInterdisciplinary research in the 21st century is characterized by bidirectional flows: one ...
The field of evolutionary robotics uses principles of natural evolution to design robots. In this pa...
Designing robots by hand can be costly and time consuming, especially if the robots have to be creat...
Designing robots by hand is often both costly and time consuming. In order to create robots automati...
A well-established fact in biology is that the environmental conditions have a paramount impact on t...
In evolution, the evolutionary success of individuals is influenced in equal parts by the environmen...
According to the principles of embodied cognition, intelli-gent behavior must arise out of the coupl...
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...
Whether, when, how, and why increased complexity evolves in biological populations is a longstanding...
Artificial evolution of robot behavior is commonly conducted in environments containing a single rob...
We investigate an evolutionary robot system where (simulated) modular robots can reproduce and creat...
One key challenge in Evolutionary Robotics (ER) is to evolve morphology and controllers of robots. M...
Evolutionary robot systems are usually affected by the properties of the environment indirectly thro...
AbstractInterdisciplinary research in the 21st century is characterized by bidirectional flows: one ...
The field of evolutionary robotics uses principles of natural evolution to design robots. In this pa...
Designing robots by hand can be costly and time consuming, especially if the robots have to be creat...
Designing robots by hand is often both costly and time consuming. In order to create robots automati...